MODU-Code, 1989 - CODE FOR THE CONSTRUCTION AND EQUIPMENT OF MOBILE OFFSHORE DRILLING UNITS, 1989 ( RESOLUTION A.649(16) ) - Netherlands Regulatory Framework (NeRF)

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Code for the construction and equipment of Mobile Offshore Drilling Units, 1989 (1989 MODU CODE)

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Ingangsdatum: 01-05-1991

Code for the construction and equipment of Mobile Offshore Drilling Units, 1989 (1989 MODU CODE)

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For the purpose of this Code, unless expressly provided otherwise, the terms used therein have the meanings defined in the following paragraphs.

1.3.1, Mobile offshore drilling unit" or "unit" is a vessel capable of engaging in drilling operations for the exploration for or exploitation of resources beneath the sea-bed such as liquid or gaseous hydrocarbons, sulphur or salt.

1.3.2, Surface unit" is a unit with a ship- or barge-type displacement hull of single or multiple hull construction intended for operation in the floating condition.

1.3.3, Self-elevating unit" is a unit with movable legs capable of raising its hull above the surface of the sea.

1.3.4, Column-stabilized unit" is a unit with the main deck connected to the underwater hull or footings by columns or caissons.

1.3.5, Administration" means the Government of the State whose flag the unit is entitled to fly.

1.3.6, Coastal State" means the Government of the State exercising administrative control over the drilling operations of the unit.

1.3.7, Organization" means the International Maritime Organization (IMO).

1.3.8, Certificate" means Mobile Offshore Drilling Unit Safety Certificate.

1.3.9, 1974 SOLAS Convention" means the International Convention for the Safety of Life at Sea, 1974, as amended.

1.3.10, "1966 Load Line Convention" means the International Convention on Load Lines, 1966.

1.3.11, "Mode of operation" means a condition or manner in which a unit may operate or function while on location or in transit. The modes of operation of a unit include the following:
.1, Operating conditions" - conditions wherein a unit is on location for the purpose of conducting drilling operations, and combined environmental and operational loadings are within the appropriate design limits established for such operations The unit may be either afloat or supported on the sea-bed, as applicable.
.2, Severe storm conditions" - conditions wherein a unit may be subjected to the most severe environmental loading for which the unit is designed Drilling operations are assumed to have been discontinued due to the severity of the environmental loading. The unit may be either afloat or supported on the sea-bed, as applicable.
.3, Transit conditions" - conditions wherein a unit is moving from one geographical location to another.

1.3.12, "Freeboard" is the distance measured vertically downwards amidships from the upper edge of the deck line to the upper edge of the related load line.

1.3.13, "Length (L)" means 96% of the total length on a waterline at 85% of the least moulded depth (D) measured from the top of the keel, or the length from the foreside of the stem to the axis of the rudder stock on that waterline, if that be greater. In units designed with a rake of keel the waterline on which this length is measured should be parallel to the designed waterline.

1.3.14, "Weathertight" means that in any sea conditions water will not penetrate into the unit.

1.3.15, "Watertight" means the capability of preventing the passage of water through the structure in any direction under a head of water for which the surrounding structure is designed.

1.3.16, "Downflooding" means any flooding of the interior of any part of the buoyant structure of a unit through openings which cannot be closed watertight or weathertight, as appropriate, in order to meet the intact or damage stability criteria, or which are required for operational reasons to be left open.

1.3.17, "Normal operational and habitable conditions" means:
.1, under which the unit as a whole, its machinery, services, means and aids ensuring safe navigation when under way, safety when in the industrial mode, fire and flooding safety, internal and external communications and signals, means of escape and winches for rescue boats, as well as the means of ensuring the minimum comfortable conditions of habitability, are in working order and functioning normally; and
.2, operations.

1.3.18, "Gas-tight door" is a solid, close-fitting door designed to resist the passage of gas under normal atmospheric conditions.

1.3.19, "Main source of electrical power" is a source intended to supply electrical power for all services necessary for maintaining the unit in normal operational and habitable conditions.

1.3.20, "Dead ship condition" is the condition under which the main propulsion plant, boilers and auxiliaries are not in operation due to the absence of power.

1.3.21, "Main switchboard" is a switchboard directly supplied by the main source of electrical power and intended to distribute electrical energy to the unit's services.

1.3.22, "Emergency switchboard" is a switchboard which, in the event of failure of the main system of electrical power supply, is directly supplied by the emergency source of electrical power and/or the transitional source of emergency power and is intended to distribute electrical energy to the emergency services.

1.3.23, "Emergency source of electrical power" is a source of electrical power intended to supply the necessary services in the event of failure of the main source of electrical power.

1.3.24, "Main steering gear" is the machinery, the steering gear power units, if any, and ancillary equipment and the means of applying torque to the rudder stock, e g tiller or quadrant, necessary for effecting movement of the rudder for the purpose of steering the unit under normal service conditions.

1.3.25, "Auxiliary steering gear" is the equipment which is provided for effecting movement of the rudder for the purpose of steering the unit in the event of failure of the main steering gear.

1.3.26, "Steering gear power unit" means, in the case of:
.1, steering gear, an electric motor and its associated electrical equipment;
.2, steering gear, an electric motor and its associated electrical equipment and connected pump;
.3, hydraulic gear, a driving engine and connected pump.

1.3.27, "Maximum ahead service speed" is the greatest speed which the unit is designed to maintain in service at sea at its deepest seagoing draught.

1.3.28, "Maximum astern speed" is the speed which it is estimated the unit can attain at the designed maximum astern power at its deepest seagoing draught.

1.3.29, "Machinery spaces of category A" are all spaces which contain internal combustion-type machinery used either:
.1, main propulsion; or
.2, other purposes where such machinery has in the aggregate a total power of not less than 375 kW; or which contain any oil-fired boiler or oil fuel unit; and trunks to such spaces.

1.3.30, "Machinery spaces" are all machinery spaces of category A and all other spaces containing propelling machinery, boilers and other fired processes, oil fuel units, steam and internal combustion engines, generators and major electrical machinery, oil filling stations, refrigerating, stabilizing, ventilation and air-conditioning machinery and similar spaces; and trunks to such spaces.

1.3.31, "Control stations" are those spaces in which the unit's radio or main navigating equipment or the emergency source of power is located or where the fire recording or fire control equipment or the dynamical positioning control system is centralized or where a fire-extinguishing system serving various locations is situated. In the case of column stabilized units a centralized ballast control station is a "control station". However, for purposes of the application of chapter 9, the space where the emergency source of power is located is not considered as being a control station.

1.3.32, "Hazardous areas" are all those areas where, due to the possible presence of a flammable atmosphere arising from the drilling operations, the use without proper consideration of machinery or electrical equipment may lead to fire hazard or explosion.

1.3.33, "Enclosed spaces" are spaces delineated by floors, bulkheads and/or decks which may have doors or windows.

1.3.34, "Semi-enclosed locations are locations where natural conditions of ventilation are notably different from those on open decks due to the presence of structures such as roofs, windbreaks and bulkheads and which are so arranged that dispersion of gas may not occur.

1.3.35, "Industrial machinery and components" are the machinery and components which are used in connection with the drilling operation.

1.3.36, "Non-combustible material" * means a material which neither burns nor gives off flammable vapours in sufficient quantity for self-ignition when heated to approximately 750øC this being determined to the satisfaction of the Administration by an established test procedure. ** Any other material is a combustible material.
_______________
* If a material passes the test as specified in resolution A.270(VIII) it should be considered as "non-combustible" even if it consists of a mixture of inorganic and organic substances (Interpretation approved by the MSC at its forty-sixth session, SLS.14/Circ.17.)

**Reference is made to the Improved recommendation on test method for qualifying marine construction materials as noncombustible adopted by the Organization by resolution A.472(XII).

1.3.37, "A standard fire test" is a test as defined in regulation II-2/3.2 of the 1974 SOLAS Convention.

1.3.38, ""A" class divisions" are those divisions as defined in regulation II-2/3.3 of the 1974 SOLAS Convention.

1.3.39, ""B" class divisions" are those divisions as defined in regulation II-2/3.4 of the 1974 SOLAS Convention.

1.3.40,"""C" class divisions" are divisions constructed of approved non-combustible materials. They need meet neither requirements relative to the passage of smoke and flame nor limitations relative to the temperature rise.

1.3.41, "Steel or equivalent material". Where the words "steel or equivalent material" occur, "equivalent material" means any non-combustible material which, by itself or due to insulation provided, has structural and integrity properties equivalent to steel at the end of the applicable standard fire test (e.g aluminium alloy with appropriate insulation).

1.3.42, "Low flame spread" means that the surface thus described will adequately restrict the spread of flame, this being determined to the satisfaction of the Administration by an established test procedure.

1.3.43, "Continuous "B" class ceilings or linings" are those "B" class ceilings or linings which terminate only at an "A" or "B" class division.

1.3.44, "Working spaces" are those open or enclosed spaces containing equipment and processes, associated with drilling operations, which are not included in 1.3.30 or 1.3.32.

1.3.45, "Accommodation spaces" are those used for public spaces, corridors, lavatories, cabins, offices, hospitals, cinemas, games and hobbies rooms, pantries containing no cooking appliances and similar spaces. Public spaces are those portions of the accommodation which are used for halls, dining rooms, lounges and similar permanently enclosed spaces.

1.3.46, "Service spaces" are those used for galleys, pantries containing cooking appliances, lockers and store-rooms, workshops other than those forming part of the machinery spaces, and similar spaces and trunks to such spaces.

1.3.47, "Fuel oil unit" is the equipment used for the preparation of oil fuel for delivery to an oil-fired boiler, or equipment used for the preparation for delivery of heated oil to an internal combustion engine, and includes any oil pressure pumps, filters and heaters dealing with oil at a pressure more than 0.18 N/㎟

1.3.48, "Survival craft" are craft capable of removing persons from a unit to be abandoned and capable of sustaining persons until retrieval is completed.

1.3.49, "Rescue boat" is an easily manoeuvred power boat capable of rapid launching and adequate for quick recovery of a man overboard and towing a liferaft away from immediate danger.

1.3.50, "Diving system" is the plant and equipment necessary for the safe conduct of diving operations from a mobile offshore drilling unit.

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1.4 Exemptions

Ingangsdatum: 01-05-1991

An Administration may exempt any unit which embodies features of a novel kind from any of the provisions of the Code the application of which might impede research into the development of such features. Any such unit should, however, comply with safety requirements which, in the opinion of that Administration, are adequate for the service intended and are such as to ensure the overall safety of the unit. The Administration which allows any such exemption should list such exemptions on the Certificate and communicate to the Organization the particulars, together with the reasons therefor, so that the Organization may circulate the same to other Governments for the information of their officers.

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1.5 Equivalents

Ingangsdatum: 01-05-1991

1.5.1, the Code requires that a particular fitting, material, appliance, apparatus, item of equipment or type thereof should be fitted or carried in a unit, or that any particular provision should be made, or any procedure or arrangement should be complied with, the Administration may allow any other fitting, material, appliance, apparatus, item of equipment or type thereof to be fitted or carried, or any other provision, procedure or arrangement to be made in that unit, if it is satisfied by trial thereof or otherwise that such fitting, material, appliance, apparatus, item of equipment or type thereof or that any particular provision, procedure or arrangement is at least as effective as that required by the Code.

1.5.2, an Administration so allows any fitting, material, appliance, apparatus, Item of equipment or type thereof, or provision, procedure, arrangement, novel design or application to be substituted, it should communicate to the Organization the particulars thereof, together with a report on the evidence submitted, so that the Organization may circulate the same to other Governments for the information of their officers.

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1.6 Surveys and certificate

1.6.1 Each unit should be subject to the surveys specified below:

.1 An initial survey before the unit is put into service or before the Certificate required under this section of the Code is issued for the first time, which should include a complete survey of its structure, safety equipment and other equipment, fittings, arrangements and material in so far as the unit is coveted by the Code. This survey should be such as to ensure that the structure, equipment, fittings, arrangements and material fully comply with the applicable provisions of the Code.

.2 Periodical surveys at intervals specified by the Administration, but not exceeding 5 years, which should be such as to ensure that the structure, safety equipment and other equipment, fittings, arrangements and material fully comply with the applicable provisions of the Code. The periodical survey may be carried out while the unit is dry-docked or as otherwise indicated in 1.6.1.5. When the periodical survey is completed within 3 months before the expiration date of the existing Certificate, the new Certificate should be valid for a period of 5 years starting from the date of expiration of the existing Certificate.

.3 Annual surveys carried out within 3 months before or after each anniversary date of the initial survey. The annual survey should be such as to ensure that the structure, fittings, arrangements, safety equipment and other equipment have been maintained in accordance with the applicable provisions of the Code and are in good working order. The annual surveys should be endorsed on the Certificate issued under the provisions of this section.

.4 Intermediate surveys be carried out within 3 months before or after the second or third anniversary date of the initial periodic survey, which may take the place of one of the annual surveys, or more frequently as may be specified by the Administration. The intermediate survey should be such as to ensure that the structure, fittings, arrangements, safety equipment and other equipment fully comply with the applicable provisions of the Code and are in good working order. That portion, or portions, of the intermediate survey addressing structure may be carried out during the dry-dock survey. Such intermediate surveys should be endorsed on the Certificate Issued under the provisions of this section.

.5 Dry-dock surveys for the purpose of determining the condition of the outside of the underwater portion of the unit, and those portions of a unit not readily accessible except in dry-dock, carried out twice within any 5-year period. However, the interval between any two dry-dock surveys should not exceed 36 months. An Administration may allow underwater inspections in lieu of dry-docking provided it is satisfied that such inspections are equivalent to a dry-dock survey. Dry-dock surveys or equivalent underwater inspections should be endorsed on the Certificate issued under the provisions of this section.

.6 As an alternative to the periodical and intermediate surveys addressed in 1.6.1.2 and 1.6.1.4, respectively, the Administration may, at the owner's request, approve a continuous survey programme provided the extent and frequency of such surveys are the same as those of the surveys required by 1.6.1.2 and 1.6.1.4. A copy of the approved continuous survey programme, together with the record of the surveys, should be retained on board the unit and the Certificate issued in accordance with 1.6.4 should be annotated accordingly.

.7 Radio stations surveys in accordance with 11.10.

.8 A survey, either general or partial according to the circumstances, should be made every time a defect is discovered or an accident occurs which affects the safety of the unit or whenever any significant repairs or alterations are made. The survey should be such as to ensure that the repairs or alterations have been effectively made, are in all respects satisfactory and fully comply with the applicable provisions of the Code. 1.6.2 These surveys should be carried out by officers of the Administration . The Administration may, however, entrust the surveys either to surveyors nominated for the purpose or to organizations recognized by it. In every case the Administration concerned should fully guarantee the completeness and efficiency of the surveys.

1.6.3 After any survey under this section has been completed no significant change should be made on the structure, equipment, fittings, arrangements or materials covered by the survey, without the sanction of the Administration, except the direct replacement of such equipment and fittings for the purpose of repair or maintenance .

1.6.4 A Certificate may be issued, after survey in accordance with this section, either by officers of the Administration or by any person or organization duly authorized by it. In every case the Administration assumes full responsibility for the Certificate.

1.6.5 The Certificate should be drawn up in the official language of the issuing country in the form corresponding to the model given in the appendix to the Code. If the language used is neither English nor French, the text should Include a translation into one of these languages.

1.6.6 Any exemptions granted under 1.4 should be clearly noted on the Certificate.

1.6.7 A Certificate should be issued for a period specified by the Administration but not exceeding 5 years from the date of issue.

1.6.8 NO extension of the 5-year period of validity of the Certificate should be permitted.

1.6.9 A Certificate should cease to be valid if significant alterations have been made in the construction, equipment, fittings, arrangements or material specified by the Code without the sanction of the Administration, except the toil tract replacement of such equipment or fittings for the purpose of repair or maintenance, or If surveys as specified by the Administration under the provisions of 1.6.1 are not carried out.

1.6.10 A Certificate issued to a unit should cease to be valid upon transfer of such a unit to the flag of another country.

1.6.11 The privileges of the Code may not be claimed in favour of any unit unless it holds a valid Certificate.

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Ingangsdatum: 01-07-1994

1.6.1 Each unit should be subject to the surveys specified below:

.1 an initial survey before the unit is pot in service or before the certificate is issued for the first time:

.2 a renewal survey at intervals specified by the administration but not exceeding 5 years except where 1.6.11.2.1 or 1.6.11.S or 1.6.11.6 is applicable:

.3 an intermediate survey within three months before or after the second anniversary date or within three months before or after the third anniversary date of the certificate, which should take the place of one of the annual surveys specified in 1.6 1.4;

.4 an annual survey within three months before or after each anniversary date of the
certificate:

.5 a minimum of two drydock surveys during any five year period, except where 1.6.11.5 is applicable. Where 1.6.11.5 is applicable this five Year period may be extended to coincide with the extended period of the validity of the certificate. In all cases the intervals between any two such surveys should not exceed 36 months:

.6 radio station surveys in accordance with 11.10;

.7 an additional survey as the occasion arises .

1 6.2 The surveys referred to in 1.6. 1 should be carried out as follows:

.1 the initial survey should include a complete inspection of the structure , safety equipment and other equipment, fittings, arrangements and material to ensure that they comply with the requirements of the Code, are in satisfactory condition and are fit for the service for which the unit is intended;

.2 the renewal survey should include an inspection of the structure, safety equipment and other equipment as referred to in 1.6.2.1 to ensure that they comply with the requirements of the Code. are in satisfactory condition and are fit for the service for which the unit is intended;

.3 the intermediate survey should include an inspection of the structure, fittings, arrangements and safety equipment to ensure that they remain satisfactory for the service for which the unit is intended;

.4 the annual survey should include a general inspection of the structure, safety equipment and other equipment as referred to in 1.6.2.1, to ensure that they have been maintained in accordance with 1.6.6.1, and that they remain satisfactory for the service for which the unit is intended;

.5 the drydock survey and the inspection of items surveyed at the same time should be such as to ensure that they remain satisfactory for the service for which the unit is intended. An administration may allow underwater inspections in lieu of a drydock survey provided that they are satisfied that such an inspection is equivalent to a drydock survey;

.6 the radio survey should include a complete inspection of the radio installation to ensure that it complies with the requirements of the Code, is in satisfactory condition and is fit for the service for which the unit is intended;

.7 an additional survey, either general or partial according to the circumstances, should be made after a repair resulting from investigations prescribed in 1.6.6.3, or wherever any important repairs or renewals are made. They survey should be such as to ensure that the necessary repairs or renewals have been effectively made, that the material and workmanship of such repairs or renewals are in all respects satisfactory, and that the unit complies in all respects with the requirements of the Code.

1.6.3 The intermediate, annual and drydock surveys referred to in 1.6.2.3, 1.6.2.4 and 1.6.2.5
should be endorsed on the certificate.

1.6.4 As an alternative to the renewal and intermediate surveys required by 1.6.2.2 and 1.6.2.3
respectively, the Administration may, at the owner¿¿s request, approve a continuous survey
programme provided that the extent and frequency of the surveys are equivalent to renewal and
intermediate surveys. A copy of the continuous survey programme, together with the record of the
surveys, should be kept on board the unit and the certificate annotated accordingly.

1.6.5

.1 The inspection and survey of the units, so far as regards the enforcement of the present
regulations and the granting of exemptions therefrom, should be carried out by officers of
the Administration. The Administration may, however, entrust the inspections and surveys
either to surveyors nominated for the purpose or the organizations recognized by it.

.2 An administration nominating surveyors or recognising organizations to conduct
inspections and surveys as set forth in 1.6.5.1 should as a minimum empower and
nominated surveyor or recognized organizations.

(1) require repairs to a unit:

(2) carry out inspections and surveys if requested by the appropriate authorities
of a port State.
The Administration should notify the Organization of the specific responsibilities and
conditions of the authority delegated to nominated surveyors or recognized organizations .

.3 When a nominated surveyor or recognized organization determines that the condition of the unit or its equipment does not correspond substantially with the particulars of the certificate or is such that the unit is not fit to operate without danger to the unit, or persons on board, such surveyor or organization should immediately ensure that corrective action
is taken and should in due course notify the Administration. If such corrective action is
not taken notified immediately: and, if the unit is in an area under the jurisdiction of
another Government. the appropriate authorities of the port State should be notified
immediately When an officer of the Administration, a nominated surveyor or recognized
organization has notified the appropriate authorities the port State, the Government of the
port State concerned should give such officer, surveyor or organization any necessary
assistance to carry out their obligations under this regulation. When applicable, the
Government of the port State concerned should ensure that the unit should not continue to
operate until it can do so without danger to the unit or the persons on board.

.4 In every case, the Administration shall fully guarantee the completeness and efficiency of
the inspection and survey, and should undertake to ensure the necessary arrangements to
satisfy this obligation ,

1.6.6

.1 The condition of the unit and its equipment should be maintained to conform with the
provisions of this Code to ensure that the unit in all respects will remain fit to operate
without danger to the unit or the persons on board.

.2 After any survey of the unit under this regulation has been completed, no change should
be made to structure, equipment, fittings, arrangements and materials covered by the
survey, without the sanction of the Administration.
.3 Whenever an accident occurs to a unit or a defect is discovered, either of which affects the

safely of the unit or the efficiency or completeness Of structure, equipment, fittings,
arrangements and materials, the person in charge or owner of the unit should report at the
earliest opportunity to the Administration, the nominated surveyor or recognized
organization responsible. who should cause investigations to be initiated to determine
whether a survey, as required by this regulation, is necessary. If the unit is in an area under
the jurisdiction of another Government, the Person in charge or the owner should also
report immediately to the appropriate authorities of the port State and the nominate6
surveyor or recognized organization should ascertain that such a report has been made.

1.6.7 A certificate called a Mobile Offshore Drilling Unit Safety Certificate (1989) may be issued
after an initial or renewal survey to a unit which complies with the requirements of the Code. The Certificate should be issued or endorsed either by the Administration or by any person or organization recognized by it. In every case, that Administration assumes full responsibility for the certificate.

1.6.8 Any exemptions granted under 1.4 should be clearly noted on the certificate .

1.6.9 A Contracting Government to both the 1974 SOLAS Convention and the 1966 Load Line
Convention may, at the request of the A(3ministration, cause a unit to be surveyed and, if satisfied
that the requirements of the Code are complied with, should issue or authorize the issue of a
certificate to the unit and, where appropriate, endorse or authorize the endorsement of a certificate
on the unit in accordance with the Code. Any certificate so issued should contain a statement to the
effect that it has been issued at then request of the Government of the State the flag of which the
unit is entitled to fly, and it should have the same force and receive the same recognition as a
certificate issued under 1.6.7.

1.6.10 The certificate should be drawn up in the form corresponding to the model given in the
appendix to the Code. If the language used is neither English nor French, the tent should include a
translation into one of these languages.

1.6. 11

.1 The Mobile Offshore Drilling Unit Safety Certificate (1989) should be issued for a
period specified by the Administration which should not exceed five years.

.2.1 notwithstanding the requirements of 1.6.11 1, when the renewal survey is completed
within three months before the expiry date of the existing certificate, the new
certificate should be valid from the date of completion of the renewal survey to a
date not exceeding five years from the date of expiry of the existing certificate ;

.2.2 when the renewal survey is completed after the expiry date of the existing certificate,
the new certificate should be valid from the date of completion of the renewal survey
to a date not exceeding five years from the date of expiry of the existing certificate ;

.2.3 when the renewal survey is completed more than three months before the expiry date
of the existing certificate, the new certificate should be valid from the date of
completion of the renewal survey to a date not exceeding five years from the date of
completion of the renewal survey.

.3 If a Certificate is issued for a period of less than five years, the Administration may
extend the validity of the certificate beyond the expiry date to the maximum period
specified in 1.6.11.1, provided that the surveys when a certificate is issued for a period of
5 years are carried out

.4 If a renewal survey has been completed and a new certificate cannot be issued or placed
on board the unit before the expiry date of the existing certificate, the person or
organization authorized by the Administration may endorse the existing certificate and
such a certificate should be accepted as valid for a further period which should not exceed
5 months from the expiry date.

.5 If a unit at the time when a certificate expires is not in the place in which it is to be
surveyed, the Administration may extend the period of validity of the certificate but this
extension shall be granted only for the purpose of allowing the unit to proceed to the place
in which it is to be surveyed, and then only in cases where it appears proper and
reasonable to do so. No certificate shall be extended for a period longer than three months,
and a unit to which an extension is granted should not, on its arrival in the place in which
it is to be surveyed, be entitled by virtue of such extension to leave that place without
having a new certificate. When the renewal survey is completed, the new certificate shall
be valid to a date not exceeding 5 years from the date of expiry of the existing certificate
before the extension was granted.

.6 In special circumstances, as determined by the Administration, a new certificate need not
be dated from the date of expiry of the existing certificate as required by 1.6.11.2.2 or
1.6.11 5. In these circumstances, the new certificate shall be valid to a date not exceeding
five years from the date of completion of the renewal survey.

.7 If an annual or intermediate survey is completed before the period specified in the
relevant regulations then:

.7.1 the anniversary date shown on the relevant certificate should be amended by
endorsement to a date which should not be more than three months later than the date
on which the survey was completed ;

.7.2 the subsequent annual or intermediate survey required by the relevant regulations
should be completed at the intervals prescribed by this regulation using the new
anniversary date;

.7.3 the expiry date may remain unchanged provided one or more annual or intermediate
surveys, as appropriate, are carried cot so that the maximum intervals between the
surveys prescribed by 1.6.1.3 and 1.6.1.4 are not exceeded.

.8 A certificate issued under 1.6.7 or 1.6.9 shall cease to be valid in any of the following
cages :

.8.1 if the relevant surveys are not completed within the periods specified in 1.6.1;

.8.2 if the certificate is not endorsed in accordance with 1.6.3.

.8.3 upon transfer of the unit to the flag of another State. A new certificate should only be
issued when the Government issuing the new certificate is fully satisfied th2;t the
unit is in compliance with the requirements of 1.6.6.1 and 1.6.6.2. In the case of a
transfer between Governments that are Contracting Governments to both 1974
SOLAS Convention an6 the 1966 Load Line Convention. if requested within three
months after the transfer has tate6 place. the Government of the State whose flag the
unit was formerly entitled to fly should, as soon as possible, transmit to the
Administration a copy of the certificate carried by the unit before the transfer and, if
available, copies of the relevant survey reports.

1.6.12 The privileges of the Code may not be claimed in favour of any unit unless it holes a valid certificate."

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1.7 Control

1.7.1, Every unit holding a Certificate Issued under 1.6 is subject, while under the jurisdiction of other Governments, to control by officers duly authorized by such Governments in so far as this control is directed towards verifying that there is on board a valid Certificate. Such Certificate should he accepted unless there are clear grounds for believing that the condition of the unit or its equipment does not correspond substantially with the particulars of that Certificate and the operating manual. In that case, the officer carrying out the control may take such steps as will allow the unit to operate on a temporary basis without undue risk to the unit and the personnel on board. In the event of this control giving else to Intervention of any kind, the officer carrying out the control should inform the Administration or the Consul of the country in which the unit is registered in writing forth-with of all the circumstances in which intervention was deemed to be necessary, and the facts should be reported to the Organization.

1.7.2, Notwithstanding 1.7.1, the provisions of 1.6 are without prejudice to any rights of the coastal State under international law to impose its own requirements relating to the regulation, surveying and inspection of units engaged, or intending to engage, in the exploration for or exploitation of the natural resources of those parts of the sea-bed and subsoil over which that State is entitled to exorcise sovereign rights.

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Ingangsdatum: 01-07-1994

1.7.1 Every unit when in an area under the jurisdiction of another Government is subject to
control by officers duly authorized by such Government in so far as this control is directed towards
verifying that the certificate issued under 1.6 is valid.

1.7.2 Such certificate, if valid, should be accepted unless there are clear grounds for believing that
the condition of the unit or its equipment does not correspond substantially with the particulars of
the certificate or that the unit and its equipment are not in compliance with the provisions of
1.6.6.2.

1.7.3 In the circumstances given in 1.7.2 or where the certificate has expired or ceased to be valid.
the officer carrying out the control should take steps to ensure that the unit should not continue to
operate (except, when appropriate, on a temporary basis) or leave the area for the purpose of
proceeding to an area for repair without danger to the unit or persons on board.

1.7.4 In the event of this control giving rise to an intervention of any kind, the officer carrying out
the control should forthwith inform, is writing, the consul or. in his absence. the nearest diplomatic
representative of the State whose flag the unit is entitled to fly of all the circumstances in which
intervention was deemed necessary. In addition. nominated surveyors or recognized organizations
responsible for the issue of the certificates should also be notified. The facts concerning the
intervention should be reported to the organization

1.7.5 When exercising control under this regulation all possible efforts delayed. If a unit is unduly
interrupted or delayed it should be entitled to compensation for any loss or damage suffered.

1.7.6 Notwithstanding the provisions of 1.7.1 and 1.7.2, the requirements of 1.6 are without
prejudice to any rights of the coastal State under international law to impose its own requirements
relating to the regulation, surveying and inspection of units engaged, or intending to engage, in the
exploration or exploitation of the natural resources of those parts of the sea-bed and subsoil over
which that State is entitled to exercise sovereign rights¿¿

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1.8 Casualties

Ingangsdatum: 01-05-1991

Each Administration should supply the Organization with pertinent information concerning the findings of investigations of any casualty occurring to any of its units subject to the provisions of the Code. No reports or recommendations of the Organization based upon such information should disclose the identity or nationality of the units concerned or in any manner fix or imply responsibility upon any unit or person.

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1.9 Review of the Code

Ingangsdatum: 01-05-1991

1.9.1, Code will be reviewed by the Organization as necessary to consider the revision of existing provisions and the formulation of provisions for new developments in design, equipment or technology.

1.9.2, Where a new development in design, equipment or technology has been found acceptable to an Administration, that Administration may submit particulars of such development to the Organization for consideration of its incorporation into the Code.

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Ingangsdatum: 01-05-1991

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3.1 Inclining test

Ingangsdatum: 01-05-1991

3.1.1, An inclining test should be required for the first unit of a design, when the unit is as near to completion as possible, to determine accurately the light ship data (weight and position of centre of gravity).

3.1.2, For successive units which are identical by design, the light ship data of the first unit of the series may be accepted by the Administration in lieu of an inclining test, provided the difference in light ship displacement or position of centre of gravity due to weight changes for minor differences in machinery, outfitting or equipment, confirmed by the results of a deadweight survey, are less than 1% of the values of the light ship displacement and principal horizontal dimensions as determined for the first of the series. Extra care should be given to the detailed weight calculation and comparison with the original unit of a series of column-stabilized, semisubmersible types as these, even though identical by design, are recognized as being unlikely to attain an acceptable similarity of weight or centre of gravity to warrant a waiver of the inclining test.

3.1.3, The results of the inclining test, or deadweight survey and inclining experiment adjusted for weight differences, should be indicated in the operating manual.

3.1.4, A record of all changes to machinery, structure, outfitting and equipment that affect the light ship data, should be maintained in the operating manual or in a light ship data alterations log and be taken into account in daily operations.

3.1.5, For column-stabilized units, a deadweight survey should be conducted at intervals not exceeding 5 years. Where the deadweight survey indicates a change from the calculated light ship displacement in excess of 1% of the operating displacement, an inclining test should be conducted.

3.1.6, The inclining test or deadweight survey should be carried out in the presence of an officer of the Administration, or a duly authorized person or representative of an approved organization.

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3.2 Righting moment and heeling moment curves

Ingangsdatum: 01-05-1991

3.2.1, Curves of righting moments and of wind heeling moments similar to figure 3-1 with supporting calculations should be prepared covering the full range of operating draughts, including those in transit conditions, taking into account the maximum deck cargo and equipment in the most unfavourable position applicable. The righting moment curves and wind heeling moment curves should be related to the most critical axes. Account should be taken of the free surface of liquids in tanks.

3.2.2, Where equipment is of such a nature that it can be lowered and stowed, additional wind heeling moment curves may be required and such data should clearly indicate the position of such equipment.

3.2.3, The curves of wind heeling moments should be drawn for wind forces calculated by the following formula:

F = 0.5*Cs*Ch*P*(V**2)*A
where:
F = the wind force (Newtons)
Cs = the shape coefficient depending on the shape of the structural member exposed to the wind (see table 3-1)
Ch = the height coefficient depending on the height above sea level of the structural member exposed to wind (see table 3-2)
P = the air mass density (1.222 kg/m3)
V = the wind velocity (metres per second)
A = the projected area of all exposed surfaces in either the upright or the heeled condition (square metres)

3.2.4, Wind forces should be considered from any direction relative to the unit and the value of the wind velocity should be as follows:
.1, In general a minimum wind velocity of 36 m/s (70 knots) for offshore service should be used for normal operating conditions and a minimum wind velocity of 51.5 m/s (100 knots) should be used for the severe storm conditions.
.2, Where a unit is to be limited in operation to sheltered locations (protected inland waters such as lakes, bays, swamps, rivers, etc.) consideration should be given to a reduced wind velocity of not less than 25.8 m/s (50 knots) for normal operating conditions.

3.2.5, In calculating the projected areas to the vertical plane, the area of surfaces exposed to wind due to heel or trim, such as under-deck surfaces, etc., should be included using the appropriate shape factor. Open truss work may be approximated by taking 30% of the projected block area of both the front and back section, i.e. 60% of the projected area of one side.

3.2.6, In calculating the wind heeling moments, the lever of the wind overturning force should be taken vertically from the centre of pressure of all surfaces exposed to the wind to the centre of lateral resistance of the underwater body of the unit. The unit is to be assumed floating free of mooring restraint.

3.2.7, The wind heeling moment curve should be calculated for a sufficient number of heel angles to define the curve. For ship-shaped hulls the curve may be assumed to vary as the cosine function of vessel heel.

3.2.8, Wind heeling moments derived from wind tunnel tests on a representative model of the unit may be considered as alternatives to the method given in 3.2.3 to 3.2.7. Such heeling moment determination should include lift and drag effects at various applicable heel angles.
TABLE 3_-1: Values of the coefficient C/₅

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3.3 Intact stability criteria

Ingangsdatum: 01-05-1991

3.3.1, The stability of a unit in each mode of operation should meet the following criteria (see also figure 3-1) :
.1, For surface and self-elevating units the area under the righting moment curve to the second intercept or downflooding angle, whichever is less, should be not less than 40% in excess of the area under the wind heeling moment curve to the same limiting angle.
.2, For column-stabilized units the area under the righting moment curve to the angle of downflooding should be not less than 30% in excess of the area under the wind heeling moment curve to the same limiting angle.
.3, The righting moment curve should be positive over the entire range of angles from upright to the second intercept.

3.3.2, Each unit should be capable of attaining a severe storm condition in a period of time consistent with the meteorological conditions. The procedures recommended and the approximate length of time required, considering both operating conditions and transit conditions, should be contained in the operating manual. It should be possible to achieve the severe storm condition without the removal or relocation of solid consumables or other variable load. However, the Administration may permit loading a unit past the point at which solid consumables would have to be removed or relocated to go to severe storm condition under the following conditions, provided the allowable KG requirement is not exceeded:
.1, in a geographic location where weather conditions annually or seasonally do not become sufficiently severe to require a unit to go to severe storm condition, or
.2, where a unit is required to support extra deckload for a short period of time that falls well within a period for which the weather forecast is favourable. The geographic locations, weather conditions and loading conditions in which this is permitted should be identified in the operating manual.

3.3.3, Alternative stability criteria may be considered by the Administration,provided an equivalent level of safety is maintained and if they are demonstrated to afford adequate positive initial stability. In determining the acceptability of such criteria, the Administration should consider at least the following and take into account as appropriate:
.1, environmental conditions representing realistic winds (including gusts) and waves appropriate for world-wide service in various modes of operation;
.2, dynamic response of a unit. Analysis should include the results of wind tunnel tests, wave tank model tests, and non-linear simulation, where appropriate. Any wind and wave spectra used should cover sufficient frequency ranges to ensure that critical motion responses are obtained;
.3, potential for flooding taking into account dynamic responses in a seaway;
.4, susceptibility to capsizing considering the unit's restoration energy and the static inclination due to the mean wind speed and the maximum dynamic response;
.5, an adequate safety margin to account for uncertainties.

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3.4 Subdivision and damage stability

Ingangsdatum: 01-05-1991

Surface and self-elevating units

3.4.1, The unit should have sufficient freeboard and be subdivided by means of watertight decks and bulkheads to provide sufficient buoyancy and stability to withstand in general the flooding of any one compartment in any operating or transit condition consistent with the damage assumptions set out in 3.5.

3.4.2, The unit should have sufficient reserve stability in a damaged condition to with stand the wind heeling moment based on a wind velocity of 25.8 m/s (50 knots) superimposed from any direction. In this condition the final waterline, after flooding, should be below the lower edge of any downflooding opening.

Column-stabilized units

3.4.3, he unit should have sufficient freeboard and be subdivided by means of watertight decks and bulkheads to provide sufficient buoyancy and stability to withstand a wind heeling moment induced by a wind velocity of 25.8 m/s (50 knots) superimposed from any direction in any operating or transit condition, taking the following considerations into account:
.1, the angle of inclination after the damage set out in 3.5.10.2 should not be greater than 17ø;
.2, any opening below the final waterline should be made watertight, and openings within 4 m above the final waterline should be made weathertight;
.3, the righting moment curve, after the damage set out above, should have, from the first intercept to the lesser of the extent of weathertight integrity required by 3.4.3.2 and the second intercept, a range of at least 7ø. Within this range, the righting moment curve should reach a value of at least twice the wind heeling moment curve, both being measured at the same angle. See figure 3-2 below.

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3.5 Extent of damage

Ingangsdatum: 01-05-1991

Surface units

3.5.1, In assessing the damage stability of surface units the following extent of damage should be assumed to occur between effective watertight bulkheads:
.1, horizontal penetration: 1 5 m; and
.2, vertical extent: from the base line upwards without limit

3.5.2, The distance between effective watertight bulkheads or their nearest stepped portions which are positioned within the assumed extent of horizontal penetration should be not less than 3.0 m; where there is a lesser distance one or more of the adjacent bulkheads should be disregarded.

3.5.3, Where damage of a lesser extent than in 3.5.1 results in a more severe condition such lesser extent should be assumed.

3.5.4, All piping ventilation systems, trunks, etc., within the extent of damage referred to in 3.5.1 should be assumed to be damaged. Positive means of closure should be provided at watertight boundaries to preclude the progressive flooding of other spaces which are intended to be intact.

Self-elevating units

3.5.5, In assessing the damage stability of self-elevating units the following extent of damage should be assumed to occur between effective watertight bulkheads:
.1, horizontal penetration: 1.5 m; and
.2, vertical extent: from the base line upwards without limit.

3.5.6, The distance between effective watertight bulkheads or their nearest stepped portions which are positioned within the assumed extent of horizontal penetration should be not less than 3.0 m; where there is a lesser distance one or more of the adjacent bulkheads should be disregarded.

3.5.7, Where damage of a lesser extent than in 3.5.5 results in a more severe condition, such lesser extent should be assumed.

3.5.8, Where a mat is fitted the above extent of damage should be applied to both the platform and the mat but not simultaneously, unless deemed necessary by the Administration due to their close proximity to each other.

3.5.9, All piping, ventilation systems, trunks, etc. within the extent of damage referred to in 3.5.5 should be assumed to be damaged. Positive means of closure should be provided at watertight boundaries to preclude the progressive flooding of other spaces which are intended to be intact.

Column-stabilized units

3.5.10, In assessing the damage stability of column-stabilized units, the following extent of damage should be assumed:
.1, Only those columns, underwater hulls and braces on the periphery of the unit should be assumed to be damaged and the damage should be assumed in the exposed portions of the columns, underwater hulls and braces.
.2, Columns and braces should be assumed to be flooded by damage having a vertical extent of 3.0 m occurring at any level between 5.0 m above and 3.0 m below the draughts specified in the operating manual. Where a watertight flat is located within this region, the damage should be assumed to have occurred in both compartments above and below the watertight flat in question. Lesser distances above or below the draughts may be applied to the satisfaction of the Administration, taking into account the actual operating conditions. However, the required damage region should extend at least 1.5 m above and below the draught specified in the operating manual.
.3, No vertical bulkhead should be assumed to be damaged, except where bulkheads are spaced closer than a distance of one eighth of the column perimeter at the draught under consideration, measured at the periphery, in which case one or more of the bulkheads should be disregarded.
.4, Horizontal penetration of damage should be assumed to be 1.5 m.
.5, Underwater hull or footings should be assumed to be damaged when operating in a transit condition in the same manner as indicated in 3.5.10.1, 3.5.10.2, 3.5.10.4 and either 3.5.10.3 or 3.5.6, having regard to their shape.
.6, All piping, ventilation systems, trunks, etc., within the extent of damage should be assumed to be damaged. Positive means of closure should be provided at watertight boundaries to preclude the progressive flooding of other spaces which are intended to be intact.

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3.6 Watertight integrity

Ingangsdatum: 01-05-1991

3.6.1, The number of openings in watertight subdivisions should be kept to a minimum compatible with the design and proper working of the unit. Where penetrations of watertight decks and bulkheads are necessary for access, piping, ventilation, electrical cables, etc., arrangements should be made to maintain the watertight integrity of the enclosed compartments.

3.6.2, Where valves are provided at watertight boundaries to maintain watertight integrity, these valves should be capable of being operated from a pump-room or other normally manned space, a weather deck, or a deck which is above the final waterline after flooding. In the case of a column-stabilized unit this would be the central ballast control station. Valve position indicators should be provided at the remote control station.

3.6.3, For self-elevating units the ventilation system valves required to maintain watertight integrity should be kept closed when the unit is afloat. Necessary ventilation in this case should be arranged by alternative approved methods.

Internal openings

3.6.4, The means to ensure the watertight integrity of internal openings should comply with the following:
.1, Doors and hatch covers which are used during the operation of the unit while afloat should be remotely controlled from the central ballast control station and should also be operable locally from each side. Open/shut indicators should be provided at the control station.
.2, Doors or hatch covers which are normally closed while the unit is afloat should be provided with an alarm system (e.g. light signals) showing personnel both locally and at the central ballast control station whether the doors or hatch covers in question are open or closed. A notice should be affixed to each such door or hatch cover stating that it is not to be left open while the unit is afloat.

3.6.5, The means to ensure the watertight integrity of internal openings which are kept permanently closed during the operation of the unit, while afloat, should comply with the following:
.1, A notice should be affixed to each such closing appliance stating that it is to be kept closed while the unit is afloat; however, manholes fitted with close bolted covers need not be so marked.
.2, On self-elevating units, an entry should be made in the official log-book or tour report, as applicable, stating that all such openings have been witnessed closed before the unit becomes waterborne.

External openings

3.6.6, All downflooding openings the lower edge of which is submerged when the unit is inclined to the first intercept between the righting moment and wind heeling moment curves in any intact or damaged condition should be fitted with a suitable watertight closing appliance, such as closely spaced bolted covers.

3.6.7, Where flooding of chain lockers or other buoyant volumes may occur, the openings to these spaces should be considered as downflooding points.

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3.7 Freeboard

Ingangsdatum: 01-05-1991

General

3.7.1, The requirements of the 1966 Load Line Convention, including those relating to certification, should apply to all units and certificates should be issued as appropriate. The minimum freeboard of units which cannot be computed by the normal methods laid down by that Convention should be determined on the basis of meeting the applicable intact stability, damage stability and structural requirements for transit conditions and drilling operations while afloat. The freeboard should not be less than that computed from the Convention where applicable.

3.7.2, The requirements of the 1966 Load Line Convention with respect to weathertightness and watertightness of decks, superstructures, deckhouses, doors, hatchway covers, other openings, ventilators, air pipes, scuppers, inlets and discharges, etc., should be taken as a basis for all units in the afloat condition.

3.7.3, In general, heights of hatch and ventilator coamings, air pipes, door sills, etc., in exposed positions and their means of closing should be determined by consideration of both intact and damage stability requirements.

3.7.4, All downflooding openings which may become submerged before the angle of inclination at which the required area under the intact righting arm curve is achieved should be fitted with weathertight closing appliances.

3.7.5, With regard to damage stability, the requirements in 3.4.3.2, 3.4.4 and 3.6.6 should apply.

3.7.6, Administrations should give special consideration to the position of openings which cannot be closed in emergencies, such as air intakes for emergency generators, having regard to the intact righting arm curves and the final waterline after assumed damage.

Surface units

3.7.7, Load lines should be assigned to surface units as calculated under the terms of the 1966 Load Line Convention and should be subject to all the conditions of assignment of that Convention.

3.7.8, Where it is necessary to assign a greater than minimum freeboard to meet intact or damage stability requirements or on account of any other restriction imposed by the Administration, regulation 6(6) of the 1966 Load Line Convention should apply. When such a freeboard is assigned, seasonal marks above the centre of the ring should not be marked and any seasonal marks below the centre of the ring should be marked. If a unit is assigned a greater than minimum freeboard at the request of the owner, regulation 6(6) need not apply.

3.7.9, Where moonpools are arranged within the hull in open communication with the sea, the volume of the moonpool should not be included in the calculation of any hydrostatic properties. If the moonpool has a larger cross-sectional area above the waterline at 0.85D than below, an addition should be made to the geometric freeboard corresponding to the lost buoyancy. This addition for the excess portion above the waterline at 0.85D should be made as prescribed below for wells or recesses. If an enclosed superstructure contains part of the moonpool, deduction should be made for the effective length of the superstructure. Where open wells or recesses are arranged in the freeboard deck, a correction equal to the volume of the well or recess to the freeboard deck divided by the waterplane area at 0.85D should be made to the freeboard obtained after all other corrections, except bow height correction, have been made. Free surface effects of the flooded well or recess should be taken into account in stability calculations.

3.7.10, The procedure described in 3.7.9 should also apply in cases of small notches or relatively narrow cut-outs at the stern of the unit.

3.7.11, Narrow wing extensions at the stern of the unit should be considered as appendages and excluded for the determination of length (L) and for the calculation of freeboards. The Administration should determine the effect of such wing extensions with regard to the requirements for the strength of unit based upon length (L).

Self-elevating units

3.7.12, Load lines should be assigned to self-elevating units as calculated under the terms of the 1966 Load Line Convention. When floating or when in transit from one operational area to another units should be subject to all the conditions of assignment of that Convention unless specifically excepted. However, these units should not be subject to the terms of that Convention while they are supported by the sea-bed or are in the process of lowering or raising their legs.

3.7.13, The minimum freeboard of units which due to their configuration cannot be computed by the normal methods laid down by the 1966 Load Line Convention should be determined on the basis of meeting applicable intact stability, damage stability and structural requirements in the afloat condition.

3.7.14, Where it is necessary to assign a greater than minimum freeboard to meet intact or damage stability requirements or on account of any other restriction imposed by the Administration, regulation 6(6) of the 1966 Load Line Convention should apply. When such a freeboard is assigned, seasonal marks above the centre of the ring should not be marked and any seasonal marks below the centre of the ring should be marked. If a unit is assigned a greater than minimum freeboard at the request of the owner, regulation 6(6) need not apply.

3.7.15, Where moonpools are arranged within the hull in open communication with the sea, the volume of the moonpool should not be included in the calculation of any hydrostatic properties. If the moonpool has a larger cross-sectional area above the waterline at 0.85D than below, an addition should be made to the geometric freeboard corresponding to the lost buoyancy. This addition for the excess portion above the waterline at 0.85D should be made as prescribed below for wells or recesses. If an enclosed superstructure contains part of the moonpool, deduction should be made for the effective length of the superstructure. Where open wells or recesses are arranged in the freeboard deck, a correction equal to the volume of the well or recess to the freeboard deck divided by the waterplane area at 0.85D should be made to the freeboard obtained after all other corrections, except bow height correction have been made. Free surface effects of the flooded well or recess should be taken into account in stability calculations.

3.7.16, The procedure described in 3.7.15 should apply in cases of small notches or relatively narrow cut-outs at the stern of the unit.

3.7.17, Narrow wing extensions at the stern of the unit should be considered as appendages and excluded for the determination of length (L) and for the calculation of freeboards. The Administration should determine the effect of such wing extensions with regard to the requirements for the strength of unit based upon length (L).

3.7.18, Self-elevating units may be manned when under tow. In such cases a unit would be subject to a bow height requirement which may not always be possible to achieve. In such circumstances, the Administration should consider the extent of application of regulation 39(3) of the 1966 Load Line Convention to such units, having regard to the occasional nature of such voyages on predetermined routes and to prevailing weather conditions.

3.7.19, Some self-elevating units utilize a large mat or similar supporting structure which contributes to the buoyancy when the unit is floating. In such cases the mat or similar supporting structure should be ignored in the calculation of freeboard. The mat or similar supporting structure should, however, always be taken into account in the evaluation of the stability of the unit when floating since its vertical position relative to the upper hull may be critical.

Column-stabilized units

3.7.20, The hull form of this type of unit makes the calculation of geometric freeboard in accordance with the provisions of chapter III of the 1966 Load Line Convention impracticable. Therefore the minimum freeboard of each column-stabilized unit should be determined by meeting the applicable requirements for:
.1, the strength of the unit's structure;
.2, the minimum clearance between passing wave crests and deck structure (see 2.6.1 to 2.6.3); and
.3, intact and damage stability requirements.

3.7.21, The minimum freeboard should be marked in appropriate locations on the structure.

3.7.22, The enclosed deck structure of each column-stabilized unit should be made weathertight.

3.7.23, Windows, sidescuttles and portlights, including those of the non-opening type, or other similar openings should not be located below the deck structure of column-stabilized units.

3.7.24, Administrations should give special consideration to the position of openings which cannot be closed in emergencies, such as air intakes for emergency generators, having regard to the intact righting arm curves and the final waterline after assumed damage.

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4.12, Dynamic positioning systems

Dynamic positioning systems used as a sole means of position keeping should provide a level of safety equivalent to that provided for anchoring arrangements to the satisfaction of the Administration.

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Ingangsdatum: 01-07-1994

Dynamic positioning systems used as a sole means of position keeping should provide a
level of safety equivalent to that provided for anchoring arrangements*.

*Reference is made to the Guidelines for vessels with Dynamic positioning Systems
approved by the Maritime Safety Committee at its sixty-third session and disseminated
by MSC/Circ.645

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Chapter 05 Electrical installations for all types of units

Ingangsdatum: 01-05-1991

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5.1 General electrical requirements

5.1.1, Electrical installations should be such that:
.1, all electrical services necessary for maintaining the unit in normal operational habitable conditions will be assured without recourse to the emergency source of power;
.2, electrical services essential for safety will be assured in case of failure of the main source of electrical power; and
.3, the safety of personnel and unit from electrical hazards will be assured.

5.1.2, Administrations should take appropriate steps to ensure uniformity in the implementation and application of the provisions of these requirements in respect of electrical installations *.
____________
*Reference is made to the recommendations published by the International Electrotechnical Commission.

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Ingangsdatum: 01-05-1991

In addition to complying with 5.3 the emergency source of power should provide:
.1, For a period of 18 hours, emergency lighting at the steering gear;
.2, For a period of 18 hours:
.2.1, navigational aids as required by regulation V/12 of the 1974 SOLAS Convention
.2.2, intermittent operation of the daylight signalling lamp and the unit's whistle; unless they have an independent supply from an accumulator battery suitably located for use in an emergency and sufficient for the period of 18 hours;
.3, For the period of 10 minutes, the steering gear where it is required to be so supplied by 7.5.4

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Ingangsdatum: 01-05-1991

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09.1 Structural fire protection

Ingangsdatum: 01-05-1991

9.1.1, These requirements have been formulated principally for units having their hull superstructure, structural bulkheads, decks and deckhouses constructed of steel.

9.1.2, Units constructed of other materials may be accepted, provided that, in the opinion of the Administration, they provide an equivalent standard of safety.

Fire integrity of bulkheads and decks

9.1.3, In addition to complying with the specific provisions for fire Integrity of bulkheads and decks in this section and in 9.2, the minimum fire integrity of bulkheads and decks should be as prescribed in tables 9-1 and 9-2. Exterior boundaries of superstructures and deckhouses enclosing accommodation, including any overhanging decks which support such accommodation, should be constructed to "A-60" standard for the whole of the portion which faces and is within 30 m of the centre of the rotary table. For units that have a movable substructure the 30 m should be measured with the substructure at its closest drilling position to the accommodation. The Administration may accept equivalent arrangements.

9.1.4, The following requirements should govern application of the tables:
.1, Tables 9-1 and 9-2 should apply respectively to the bulkheads and decks separating adjacent spaces.
.2, For determining the appropriate fire integrity standards to be applied to divisions between adjacent spaces, such spaces are classified according to their fire risk, as shown in categories (1) to (11) below. The title of each category is intended to be typical rather than restrictive. The number in parenthesis preceding each category refers to the applicable column or row in the tables:
(1), "Control stations" are spaces as defined in 1.3.31.
(2), "Corridors" means corridors and lobbies.
(3), "Accommodation spaces" are spaces as defined in 1.3.45, excluding corridors, lavatories and pantries containing no cooking appliances.
(4), "Stairways" are interior stairways, lifts and escalators (other than those wholly contained within the machinery spaces) and enclosures thereto. In this connection a stairway which is enclosed only at one level should be regarded as part of the space from which it is not separated by a fire door.
(5), "Service spaces (low risk)" are lockers, store-rooms and working spaces in which flammable materials are not stored, drying rooms and laundries.
(6), "Machinery spaces of category A" are spaces as defined in 1.3.29.
(7), "Other machinery spaces" are spaces as defined in 1.3.30 other than machinery spaces of category A.
(8), "Hazardous areas" are areas as defined in 1.3.32.
(9), "Service spaces (high risk)" are lockers, store-rooms and working spaces in which flammable materials are stored, galleys, pantries containing cooking appliances, paint rooms and workshops other than those forming part of the machinery space.
(10), "Open decks" are open deck spaces, excluding hazardous areas.
(11), "Sanitary and similar spaces" are communal sanitary facilities such as showers, baths, lavatories, etc., and isolated pantries containing no cooking appliances. Sanitary facilities which serve a space and with access only from that space shall be considered a portion of the space in which they are located.

9.1.5, Continuous "B" class ceilings or linings in association with the relevant decks or bulkheads may be accepted as contributing wholly or in part to the required insulation and integrity of a division.

9.1.6, In approving structural fire protection details, the Administration should have regard to the risk of heat transmission at intersections and terminal points of required thermal barriers.

Ingangsdatum: 01-05-1991

9.13.1, A fire control plan complying with regulation II-2/20 of the 1974 SOLAS Convention should be permanently exhibited.

9.13.2, Fire-extinguishing appliances should be kept in good order and be available for immediate use at all times.

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Ingangsdatum: 01-05-1991

10.6 - Survival craft launching and recovery arrangements

10.6.1, Launching appliances complying with the requirements of regulation III/48.1 and III/48.2, III/48.4 or III/48.6, as applicable, should be provided for all lifeboats and davit-launched liferafts. Notwithstanding regulation III/48.1.1, for column-stabilized units, launching appliances should be capable of operating at the list and trim resulting from any damaged condition under chapter 3.

10.6.2, Launching and recovery arrangements should be such that the appliance operator on the unit is able to observe the survival craft at all times during launching and lifeboats during recovery.

10.6.3, Only one type of release mechanism should be used for similar survival craft carried on board the unit.

10.6.4, Preparation and handling of survival craft at any one launching station should not interfere with the prompt preparation and handling of any other survival craft or rescue boat at any other station.

10.6.5, Falls, where used, should be long enough for the survival craft to reach the water with the unit under unfavourable conditions, such as maximum air-gap, lightest transit or operational condition or any damaged condition, as described in chapter 3.

10.6.6, During preparation and launching, the survival craft, its launching appliance and the area of water into which it is to be launched should be adequately illuminated by emergency lighting.

10.6.7, Means should be available to prevent any discharge of fluids on to survival craft during abandonment.

10.6.8, All lifeboats required for abandonment by the total number of persons permitted on board, should be capable of being launched with their full complement of persons and equipment within 10 min from the time the signal to abandon the unit is given.

10.6.9, Manual brakes should be so arranged that the brake is always applied unless the operator, or a mechanism activated by the operator, holds the brake control in the "off" position.

10.6.10, Each survival craft should be so arranged as to clear each leg, column, footing, brace, mat and each similar structure below the hull of a self-elevating unit and below the upper hull of a column-stabilized unit, with the unit in an intact condition. The Administration may allow a reduction in the total number of survival craft meeting this requirement when the unit is in the transit mode and the number of personnel on board has been reduced. In such cases, sufficient survival craft to meet the requirements of this chapter, including 10.2, should be available for use by those personnel remaining on board.

10.6.11, In any case of damage specified in chapter 3, lifeboats with an aggregate capacity of not less than 100% of persons on board should, in addition to meeting all other requirements of launching and stowage contained in this chapter, be capable of being launched clear of any obstruction.

10.6.12, Consideration should be given to the location and orientation of the survival craft with reference to MODU design such that clearance of the unit is achieved in an efficient and safe manner having due regard to the capabilities of the survival craft.

10.6.13, Notwithstanding the requirements of regulation III/48.2.6, the speed of lowering need not be greater than 1 m/s.

Permanente link

010.7 Rescue boats

Ingangsdatum: 01-05-1991

Each unit should carry at least one rescue boat complying with regulation III/47. A lifeboat may be accepted as a rescue boat, provided that it also meets the requirements for a rescue boat.

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010.8 Stowage of rescue boats

Ingangsdatum: 01-05-1991

Rescue boats should be stowed:
.1, in a state of continuous readiness for launching in not more than 5 min;
.2, in a position suitable for launching and recovery;
.3, so that neither the rescue boats nor their stowage arrangements will interfere with the operation of any survival craft at any other launching station;
.4, in compliance with 10.5, if they are also lifeboats.

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10.10 Lifejackets

Ingangsdatum: 01-05-1991

10.10.1, A lifejacket complying with the requirements of regulation III/32.1 or III/32.2 should be provided for every person on board the unit. In addition, a sufficient number of lifejackets should be stowed in suitable locations for those persons who may be on duty in locations where their lifejackets are not readily accessible.

10.10.2, Each lifejacket should be fitted with a light complying with the requirements of regulation III/32.3.

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10.11 Immersion suits

Ingangsdatum: 01-05-1991

10.11.1, Each unit should carry an immersion suit complying with the requirements of regulation III/33 for each person on board. In addition, a sufficient number of immersion suits should be stowed in suitable locations for those persons who may be on duty in locations where their immersion suits are not readily accessible.

10.11.2, Immersion suits need not be carried if the unit is constantly in operation in warm climates where, in the opinion of the Administration, immersion suits are unnecessary.

Permanente link

10.12 Lifebuoys

Ingangsdatum: 01-05-1991

10.12.1, At least eight lifebuoys of a type complying with the requirements of regulation III/31 should be provided on each unit. The number and placement of lifebuoys should be such that a lifebuoy is accessible from exposed locations. Surface units over 100 m in length should carry not less than the number of lifebuoys prescribed in the following table:

10.12.2, Not less than one-half of the total number of lifebuoys should be provided with self-igniting lights of an approved electric battery type complying with the requirements of regulation III/31.2. Not less than two of these should also be provided with self-activating smoke signals complying with the requirements of regulation III/31.3 and be capable of quick release from the navigating bridge, main control station, or a location readily available to operating personnel. Lifebuoys with lights and those with lights and smoke signals should be equally distributed on both sides of the unit and should not be the lifebuoys provided with lifelines in compliance with the requirements of 10.12.3.

10.12.3, At least two lifebuoys in widely separated locations should each be fitted with a buoyant lifeline, the length of which should be at least one-and-a-half times the distance from the deck of stowage to the waterline at light draught, or 30 m, whichever is greater.

10.12.4, Each lifebuoy should be marked in block capitals of the Roman alphabet with the name and port of registry of the unit on which it is carried

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10.13 Radio life-saving appliances

Two-way VHF radiotelephone apparatus

10.13.1 At least three two-way VHF radiotelephone apparatus should be provided on each unit. Such apparatus should conform to performance standards not inferior to those adopted by the Organization*. If a fixed two-way VHF radiotelephone apparatus is fitted in a survival craft it should conform to performance standards not Inferior to those adopted by the Organization*

_____________
_{* Reference is made to the Performance standards for survival craft two-way VHF radiotelephone apparatus adopted by
the Organization by resolution A 605(15) and to regulation III/6.2.1.2 of the 1988 SOLAS amendments which may be applied to units.}

Radar transponder

10.13.2 At least one radar transponder should be carried on each side of a surface unit and at least two radar transponders on self-elevating and column-stabilized units each stowed in one of the two widely separated locations required by 10.2.4. The radar transponders should either be stowed in locations from which they can be rapidly placed in any survival craft other than the liferaft or liferafts required by 10.2.3 or, alternatively, one radar transponder should be stowed in each survival craft other than those required by 10.2.3. Such radar transponders should conform to performance standards not inferior to those adopted by the Organization **

_____________
_{** Reference is made to the performance standards for survival craft transponders for use in search and rescue
operations, adopter by the Organization A.604(15).}

Permanente link

Ingangsdatum: 01-05-1991

Permanente link

11.01 Application

11.1.1 The purpose of this chapter is to provide minimum requirements for distress and safety radiocommunications between mobile offshore drilling units and coast stations. ships and supporting aircraft in the maritime mobile service.

11.1.2 The requirements are applicable to the following modes of operation of mobile offshore drilling units :

.1 when under way self-propelled;

.2 when towed, or self-propelled and accompanied by escort ships; and

.3 when stationary at the site or engaged in drilling operations.

Permanente link

Ingangsdatum: 01-02-1992

11.1.1 The purpose of this chapter is to provide minimum requirements for distress and safety radiocommunications between mobile offshore drilling units and coast stations , ships and supporting aircraft in the maritime mobile service .

11.1.2 The requirements are applicable to the following modes of operation of mobile offshore drilling units:

.1 when underway self-propelled ;

.2 when towed, or self-propelled and accompanied by escort ships ; and

.3 when stationary at the site or engaged in drilling operations

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11.02 General

Coastal Slates in common areas of interest should, to the extent possible, establish similar radiocommunication requirements to avoid confusion in case any ancillary craft have to divert to another coastal State in an emergency.

Permanente link

Ingangsdatum: 01-02-1992

Coastal States in common areas of interest should, to the extent possible , establish similar radiocommunication requirements to avoid confusion in case any ancillary craft have to divert to another coastal State in an emergency.

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11.03 Self-propelled units under way

Each unit while under way at sea should comply with the applicable provisions concerning radio stations for cargo ships in chapter IV of the 1974 SOLAS Convention.

Permanente link

Ingangsdatum: 01-02-1992

Each unit, while under way at sea, should comply with the applicable provisions concerning radiocommunications for ships prescribed in chapter IV of the 1988 SOLAS amendments .*

___________
_{* All requirements of chapter IV of the 1988 SOLAS amendments referring to "from the position the ship is normally
navigated" should be applied as meaning "from the position the MODU is normally navigated" .}

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11.04 Units when towed, or self-propelled and accompanied by escort ships

11.4.1 Each unit, when manned and under tow, should be provided with:

.1 a radiotelephone station complying with the provisions of chapter IV of the 1974 SOLAS Convention;

.2 an efficient means of communication between the radiotelephone station and the control room of the unit;

.3 at least one satellite emergency position-indicating radio beacon (satellite EPIRB); and

.4 an adequate means of communication with the towing ships. 11.4.2 Each self-propelled unit accompanied by one or more escort vessels should comply with the provisions of 11.3.

Permanente link

Ingangsdatum: 01-02-1992

11.4.1 The requirements for non-self-propelled units under tow when manned depend upon the radio installations fitted in the towing ship, as set out in paragraphs 11.4.2 and 11.4.3.

11.4.2 In cases where the towing ship complies fully with all applicable requirements concerning radiocommunications for ships prescribed in chapter IV of the 1988 SOLAS amendments , the non-self-propelled unit under tow when manned should :

.1 be fitted with VHF facilities as required by regulations IV/7.1.1** and 7.1.2 of the 1988 SOLAS amendments and with MF facilities as required by regulations IV/9.1.1 and 9.1.2;

.2 be fitted with the satellite EPIRB or EPIRB required by regulation IV/7.1.6, as appropriate, for the area in which the MODU is being towed; and

.3 be fitted with equipment for automatic reception of navigational and meteorological warnings in accordance with regulations IV/7.1.4 and IV/7.1.5, as appropriate, of the 1988 SOLAS amendments . 11.4.3 In cases where the towing ship does not comply fully with the applicable requirements concerning radiocommunications for ships prescribed in chapter IV of the 1988 SOLAS amendments, the MODU under tow when manned should comply with all the applicable provisions concerning radiocommunications prescribed in chapter IV of the 1988 SOLAS amendments . **
_________

_{** All requirements of chapter IV of the 1988 SOLAS amendments referring to "from the position the ship is normally
navigated" should be applied as meaning ”from a position which is continuously manned and which is controlling
the MODU while under tow”}

11.4.4 Each self-propelled unit accompanied by one or more escort vessels should comply with the provisions of 11.3.

Permanente link

11.05 Units stationary at the site or engaged in drilling operations

Each unit, while stationary at the site or engaged in drilling operations, should comply with the provisions of 11.4.1 and any additional radiocommunication requirements of the coastal Stale.

Permanente link

Ingangsdatum: 01-02-1992

Each unit while stationary at the site, including when engaged in drilling operations , should comply with all requirements prescribed in chapter IV of the 1988 SOLAS amendments that are applicable to a ship sailing through the same area.*

________
_{ALL requirements of chapter IV of the 1988 SOLAS amendments referring to "from the position at which the ship is
normally navigated", should be applied as meaning "from a position (or from the positions), which is continuously
manned and which is controlling the MODU while stationary at the site including its drilling operations (i.e. normally
the control room)".}

11.5.2 Taking into account the different types of accident which may occur on the MODU, additional radio equipment should be installed in a room or position, which could be the bridge or an emergency control room, situated as far as practicable from the radio equipment fitted in compliance with section 11.5.1, so that no single accident in any part of the MODU could deprive the MODU of all facilities for radiocommunications .

The additional radio equipment should comply with the following regulations of the 1988 SOLAS amendment for MODUs drilling in:

.1 sea area Al , the equipment prescribed by regulation IV/7.1.1;

.2 sea area A2, the equipment prescribed by regulations IV/7.1.1 and IV/9.1.1;

.3 sea area A3, the equipment prescribed by regulations IV/7.1.1 and IV/10.1.1, plus 10.1.2; or alteratively, as required by regulations IV /7.1.1 and 10.2.1; .4 sea area A4, the equipment prescribed by regulations IV /7.1.1 and IV /10.2.1.

11.5.3 If the acoustic noise level in a room fitted with operating controls for radio equipment is so high or could be so high, during particular operating conditions , that it may disturb or prevent proper use of the radio equipment, then adequate noise protection should be provided by mechanical or other means , in association with the operating controls for the radio equipment .

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11.06 Helicopter communications

Each unit serviced by helicopters should be provided with the radiocommunication equipment required for flight safety as determined by the coastal State.

Permanente link

Ingangsdatum: 01-02-1992

In order to ensure communication with helicopters , MODUs serviced by helicopters should carry an aeromobile VHF radiotelephone station complying with the relevant requirements of ICAO.

Permanente link

11.07 Technical specifications for equipment

The radio station equipment should be type-approved to the technical specifications of the Administration issuing the licence. Where there is common agreement, equipment type-approved by one Administration should be accepted by the other Administration.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 31-01-1992

Permanente link

11.07 Internal communications

Ingangsdatum: 01-02-1992

All types of MODUs should be fitted with efficient means of communication between the control room, the bridge (if provided) and any position or positions fitted with facilities for operation of radio equipment.

Permanente link

11.08 Gas explosion danger

Any radio equipment installed in a zone, as defined in 6.1, should comply with regulation IV/14 of the 1988 SOLAS amendments.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 31-01-1992

Any radio equipment installed in a zone, as defined in 6.1, should comply with regulation IV/14 of the 1988 SOLAS amendments.

Permanente link

11.08 Performance standards

Ingangsdatum: 01-02-1992

11.8.1 All radio equipment should be of a type approved by the Administration issuing the licence. Subject to section 11.8.2, such equipment should conform to appropriate performance standards not inferior to those adopted by the organization*.

___________
_{* Reference is made to the following performance standards adopted by the Organization by the resolutions indicated or
to be developed by the Organization:}

.1, Narrow-band direct-printing equipment for the reception of navigational and meteorological warnings and urgent information to ships (resolution A.525(13));

.2, General requirements for shipborne radio equipment forming part of the global maritime distress and safety system and for electronic navigational aids (resolution A.694(17));

.3, Performance standards for ship earth stations capable of two-way communications (resolution A.698(17));

.4, VHF radio installations capable of voice communications and digital selective calling (resolution A.609(15));

.5, Shipborne MF radio installations capable of voice communications and digital selective calling (resolution A.610(15));

.6, Shipborne MF/HF radio installations capable of voice communication, narrow-band direct-printing and digital selective calling (resolution A.613(15));

.7, Performance standards for float-free satellite emergency position-indicating radio beacons operating on 406 MHz (resolution A.695(17));

.8, Performance standards for survival craft radar transponders for use in search and rescue operations (resolution A.697(17));

.9, Float-free VHF emergency position-indicating radio beacons (resolution A.612(15));

.10, INMARSAT Standard-C ship earth stations capable of transmitting and receiving direct-printing communications (resolution A.663(16));

.11, Enhanced group call equipment (resolution A.664(16));

.12, Float-free satellite emergency position-indicating radio beacons operating through the geostationary INMARSAT satellite system on 1.6 GHz (resolution A.661(16));

.13, Float free release and activation arrangements for emergency radio equipment (resolution A.662(16)). 11.8.2 Equipment installed prior to 1 February 1992 may be exempted from full compliance with the appropriate performance standards at the discretion of the Administration, provided that the equipment is compatible with equipment complying with the performance standards, haying due regard to the criteria which the Organization may adopt in connection with such standards .

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11.09 Accommodation for radio personnel

On each unit the accommodation of at least one of the radiotelephone operators should be situated as near as practicable to the radiotelephone operating position.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 31-01-1992

On each unit the accommodation of at least one of the radiotelephone operators should be situated as near as practicable to the radiotelephone operating position.

Permanente link

11.09 Gas explosion danger

Ingangsdatum: 01-02-1992

Any radio equipment installed in a zone as defined in section 6.1 should comply with regulation IV/14 of the 1988 SOLAS amendments .

Permanente link

11.10 Survey of the radio station

11.10.1 The radio station of a unit should be subject to survey as specified below:

.1 by the Administration which issues the licence or its authorized representative before the radio station is put into service ;

.2 when the unit is moved and comes under the administrative control of another coastal State a survey may be carried out by that State or its authorized representative;

.3 once every 12 months, carried out by an officer of the Administration and/or the coastal State or their respective authorized representative. 11.10.2 The Administration may recognize the coastal State as its authorized representative.

11.10.3 In every case when an authorized representative of the coastal State carries out an inspection, a report should be issued and kept with the radio documents, and a copy, if requested, should be forwarded to the Administration.

Permanente link

Ingangsdatum: 01-02-1992

11.10.1 The radio station of a unit should be subject to survey as specified below:

.1 by the Administration which issues the licence or its authorized representative before the radio station is put into service;

.2 when the unit is moved and comes under the administrative control of another coastal State a survey may be carried out by that State or its authorized representative ;

.3 once every 12 months, carried out by an officer of the Administration and/or the coastal State or their respective authorized representative . 11.10.2 The Administration may recognize the coastal State as its authorized representative .

11.10.3 In every case when an authorized representative of the coastal State carries out an inspection, a report should be issued and kept with the radio documents, and a copy, if requested, should be forwarded to the Administration.

Permanente link

* Reference is made to regulations of national civil aviation authorities in the unit's area of operation, applicable international standards of the International Civil Aviation Organization (ICAO) and recommended practices developed in accordance with the Memorandum of Understanding between IMO and ICAO.

Permanente link

Ingangsdatum: 01-05-1991

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13.1 General

Each helicopter deck on a unit should be of sufficient size and located so as to provide a clear approach to enable the largest helicopter using the deck to operate under the most severe conditions anticipated for helicopter operations.

Permanente link

Ingangsdatum: 01-07-1994

Each helicopter deck should be of sufficient size and located so as to provide a clear take-off and approach to enable the largest helicopter using the helideck to operate under the most severe conditions anticipated for helicopter operations.

Permanente link

13.2 Construction

13.2.1 The helicopter deck should be of a design and construction adequate for the intended service to the satisfaction of the Administration.

13.2.2 ** In general, the helicopter deck should be of sufficient size to contain a circle of a diameter equal to at least the rotor diameter of the largest helicopter intended to use the facility. The helicopter deck should have an approach/departure sector of at least 180°free of obstructions. The base of this sector should be tangent to the periphery of the circle described above, as shown in figure 13-1. Outside the approach/departure sector obstructions within one third of the rotor diameter from the periphery of the circle described above should not extend above a plane measured vertically from the edge of the deck with a rise equal to half of the horizontal distance from the periphery of the above circle.

________
** The deck size as described in 13.2.2 and 13.2.3 is applicable to helicopters with a single main rotor. Administrations may specify different requirements if tandem rotor helicopters are to be utilized.

13.2.3 ** Where adverse climatic conditions are prevalent, as in the North Sea a coastal State may, for units operating in its territorial sea or on its continental shelf, specify a helicopter deck of sufficient size to contain a circle of a diameter equal to at least the overall length of the largest helicopter intended to use the facility. The approach/departure sector should be not less than 210° free of obstruction and should intersect the periphery of the circle described above, as shown in figure 13-1. Outside the approach/departure sector, obstructions within one third of the helicopter overall length from the periphery of the circle described above should not extend more than 1/20 of the helicopter overall length above the level of the helicopter deck. The overall length of a helicopter is the distance from the tip of the main rotor blade to the tip of the tail rotor when the rotor blades are aligned along the longitudinal axis of the helicopter.

________
** The deck size as described in 13.2.2 and 13.2.3 is applicable to helicopters with a single main rotor. Administrations may specify different requirements if tandem rotor helicopters are to be utilized.

13.2.4 The helicopter deck should have a non-skid surface.

13.2.5 The helicopter deck should have drainage facilities to prevent the collection of liquids and prevent liquids from spreading to or falling on other parts of the unit having regard to the use of fire-fighting equipment and the possible spillage of fuel.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 30-06-1994

Permanente link

13.2 Definitions

Ingangsdatum: 01-07-1994

13.2.1, "Helideck" is a purpose-built helicopter landing platform located on a mobile offshore drilling unit (MODU).

13.2.2, "RD" means the main rotor diameter of the largest single rotor helicopter intended to use the facility.

13.2.3, "LD" means the largest dimension of the helicopter when the rotors are turning.

13.2.4, "Obstacle-free sector" is a sector formed by an arc originating at the reference point of the edge of a helideck and extending outward in the horizontal plane level with the elevation of the helideck.

13.2.5, "Limited obstacle sector" is a sector extending outward which is formed by that portion of the 360 degrees arc, excluding the obstacle-free sector, the centre of which is the reference point from which the obstacle-free sector is determined. Obstacles within the limited obstacle sector are limited to specified heights.

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13.3 Arrangements

13.3.1, The helicopter deck should be free of projections except that landing lights or other essential projections may be installed around the periphery of the deck provided they do not rise more than 15 cm above the level of the helicopter deck.

13.3.2, The helicopter deck should have recessed tie-down points for securing a helicopter.

13.3.3 The helicopter deck should be protected by a safety net at least 1.5 m wide. The outer edge should not rise more than 15 cm above the edge of the deck.

13.3.4 The helicopter deck should have both a main and an emergency personnel access route located as far apart from each other as practicable.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 30-06-1994

Permanente link

13.3 Construction

Ingangsdatum: 01-07-1994

13.3.1, The helideck should be of a design and construction, adequate for the intended service and for the appropriate prevailing climatic conditions, approved to the satisfaction of the Administration.

13.3.2, For adverse climates as determined by the coastal State, taking into account the type of helicopter used, the conditions of wind, turbulence, sea state, water temperature and icing conditions, the helideck should meet the following requirements with reference to ICAO Annex 14 Volume II (Heliports):
.1, The helideck should be of sufficient size to contain an area within which can be drawn a circle of diameter not less than LD for single main rotor helicopters and not less than 0.9 LD for tandem main rotor helicopters.
.2, Where the provisions of 13.3.2.1 cannot be met for helicopters having tandem main rotors, the helideck may be in the form of a rectangle with a small side not less than 0.75 LD and a long side not less than 0.9 LD, but within this rectangle, bidirectional landings only should be permitted in the direction of the 0.9 LD dimension. Where necessary for design purposes, any corners of the rectangle may be omitted, provided that neither of the two sides forming the right angle of the omitted triangle exceed 5 m in length.
.3, The obstacle-free sector should be not less than 210 degrees.
.4, For single main rotor and side by side twin main rotor helicopters, within the 150 degrees limited obstacle sector out to a distance of 0.62 LD, measured from the centre of the helideck, objects should not exceed a height of 0.05 LD above the helideck. Beyond that arc, out to an overall distance of 0.83 LD, the limited obstacle sector rises at a rate of one unit vertically for each two units horizontally (see figure 13-1).
.5, For omnidirectional operations by tandem main rotor helicopters, within the 150 degrees limited obstacle-free sector out to a distance of 0.62 LD, measured from the center of the helideck, no fixed obstacles should be allowed. Beyond that arc, out to an overall distance of 0.83 LD, the obstacle height is limited to 0.05 LD (see figure 13-2).
.6, For bidirectional operations by tandem main rotor helicopters, within the 0.62 LD arc in the 150 degrees limited obstacle-free sector, objects should not penetrate a level surface which has a height equivalent to 1.1 m above the helideck (see figure 13-3).
.7, In the immediate vicinity of the helideck, over an area of at least 180 degrees with the origin at the centre of the helideck, obstacles such as booms, derricks, sponsons, etc., should not protrude beyond a descending gradient having a ratio of one unit horizontal to five units vertically measured from the edge of the helideck downward.

13.3.3, For moderate climates as determined by the coastal State, taking into account the type of helicopter used, the conditions of wind, turbulence, sea state, water temperature and icing conditions, the helideck should meet the following requirements:
.1, The helideck should be of sufficient size to contain a circle of diameter equal to RD. In the case of MODUs expected to be routinely serviced by tandem main rotor helicopters, the helideck should be of sufficient size to contain a circle of diameter equal to at least 0.75 LD.
.2, The helicopter deck should have an obstacle-free sector of at least 180 degrees free of obstructions. The reference point for this sector should be a point on the periphery of the circle referenced in paragraph 13.3.3.1, as shown in figure (13-4).
.3, The limited obstacle sector should extend out to a distance of 0.83 RD for general operating areas. This distance should be measured from the centre of the helicopter deck. Obstructions in the limited obstacle sector should not extend above a plane measures vertically from the edge of the deck with rise at a rate not exceeding one unit vertically for each two units horizontally from the edge of the helideck (see figure 13-4).

13.3.4, The helideck should have a skid resistant surface.

13.3.5, Where the helideck is constructed in the form of a grating, the underdeck should be such that the ground effect is maintained.

Permanente link

13.4 Visual aids

13.4.1, A wind direction indicator located in an unobstructed area readily visible to helicopters approaching the helicopter deck should be provided.

13.4.2, The helicopter deck should be marked (figure 13-1) in a contrasting colour as follows :

.1 the perimeter with a continuous line of 40 cm width;

.2 unit identification; and

.3 aiming circles, taking into account deck configuration. helicopter type and operational requirements. 13.4.3 Each helicopter deck should be fitted with alternate yellow and blue lights to enable the landing area to be easily identified at night. These lights should be positioned around the perimeter of the deck not more than 3 m apart.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 30-06-1994

Permanente link

13.4 Arrangements

Ingangsdatum: 01-07-1994

13.4.1, The helideck should be free of projections except that landing lights or other essential projections may be installed around the periphery of the deck provided they do not rise more than 0.15 m above the level of the deck.

13.4.2, The helideck should have recessed tie-down points for securing a helicopter.

13.4.3, The periphery of the helideck should be fitted with a safety net except where structural protection exists. The net should be inclined upward and outwards from below the edge of the helideck to a horizontal distance of 1.5 m and should not rise more than 0.15 m above the edge of the deck.

13.4.4, The helideck should have both a main and an emergency personnel access route located as far apart from each other as practicable.

13.4.5, Reference should be made to 9.11.1 concerning helideck drainage.

Permanente link

13.5 Visual aids

Ingangsdatum: 01-07-1994

13.5.1, A wind direction indicator should be located on the unit which, in so far as is practicable, indicates the actual wind conditions over the helideck. Units on which night helicopter operations take place should have provisions to illuminate the wind direction indicator.

13.5.2, The helideck should be marked as follows:
.1, the perimeter with a continuous white line with a width of 0.3 m;
.2, the unit's name should be provided on the helideck and be positioned on the obstacle side with characters not less than 1.2 m in height and in a colour contrasting with the background;
.3, an aiming circle, concentric to the helideck, painted yellow with an inside diameter equal to 0.5 LD. The width of the line should be 1 m;
.4, a white "H" centred on the landing area with the horizontal on the bisector of the obstacle-free sector. The "H" should be 3 m high, 1.8 m wide with 0.4 m wide lines; and
.5, the helideck obstacle-free sector marking should indicate the origin of the obstacle-free sector, the direction of the limits of the sector and the design dimensions (the LD or RD value) of the helideck, as shown in figure 13-5.

13.5.3

.1 The helideck should be fitted with omnidirectional yellow lights in order to enable the landing area to be easily identified at night. These lights should be uniformly positioned along the perimeter of the helideck and not more than 3 m apart. The administration may allow the substitution of red lights for yellow lights to indicate the position of cranes, and in the case of self-elevating units, legs.

.2 Helideck floodlights, where fitted, should be located so as to avoid glare to pilots. The arrangements and aiming of floodlights should be such that helideck markings are illuminated and that shadows are kept to a minimum.

Permanente link

[Niet geldig (geldigheid vanaf 2015-01-01)]

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014.8 Emergency procedures

14.8 - Person in charge

14.8.1 The person on each unit to whom all personnel on board are responsible in an emergency should be clearly defined. This person should be designated by title by the owner or operator of the unit or the agent of either of them.

14.8.2 The person in charge should be well acquainted with the characteristics, capabilities and limitations of the unit. This person should be fully cognizant of his responsibilities for emergency organization and action, for conducting emergency drills and training, and for keeping records of such drills.

Manning of survival craft and supervision
14.8.3 There should be a sufficient number of trained persons on board for mustering and assisting untrained persons.

14.8.4 There should be a sufficient number of certificated persons on board for launching and operating the survival craft to which personnel are assigned.

14.8.5 Certificated persons should be placed in command and as second-in-command of each lifeboat

14.8.6 The person in command of the lifeboat and the second-in-command should have a list of all persons assigned to the boat and should see that persons under their command are acquainted with their duties.

14.8.7 Every lifeboat should have a person assigned who is capable of operating the lifeboat radio equipment.

14.8.8 Every lifeboat should have a person assigned who is capable of operating the engine and carrying out minor adjustments.

14.8.9 The person in charge of the unit should ensure the equitable distribution of persons referred to in 14.8.3, 14.8.4 and 14.8.5 among the unit's survival craft.

Muster list
14.8.10 Muster lists should be exhibited in conspicuous places throughout the unit including the control rooms and accommodation spaces.

14.8.11 The muster list should specify details of the general alarm system signals and also the action to be taken in all operating modes by every person when these alarms are sounded, indicating the location to which they should go and the general duties, if any, they would be expected to perform.

14.8.12 The following duties should be included in the muster list:

closing of the watertight doors, fire doors, valves, vent inlets and outlets, scuppers, sidescuttles, skylights, portholes and other similar openings in the unit;
equipping of the survival craft and other life-saving appliances;
preparation and launching of survival craft;
general preparation of other life-saving appliances;
muster of visitors;
use of communication equipment;
manning of fire parties assigned to deal with fires;
special duties assigned in respect to the use of fire-fighting equipment and installations;
emergency duties on the helicopter deck;
special duties assigned in the event of an uncontrolled escape of hydrocarbons or hydrogen sulphide, including emergency shutdown.

14.8.13 The muster list should specify substitutes for key persons who may become disabled, taking into account that different emergencies may call for different actions.

14.8.14 The muster list should show the duties assigned to regularly assigned personnel in relation to visitors in case of emergency.

14.8.15 Each unit should have a current muster list revised as necessary to reflect any procedural changes.

14.8.16 In deciding on the level of detail to be included in the muster list, account should be taken of information available in other documents, e.g. operating manual

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 31-12-2014

closing of the watertight doors, fire doors, valves, vent inlets and outlets, scuppers, sidescuttles, skylights, portholes and other similar openings in the unit;
equipping of the survival craft and other life-saving appliances;
preparation and launching of survival craft;
general preparation of other life-saving appliances;
muster of visitors;
use of communication equipment;
manning of fire parties assigned to deal with fires;
special duties assigned in respect to the use of fire-fighting equipment and installations;
emergency duties on the helicopter deck;
special duties assigned in the event of an uncontrolled escape of hydrocarbons or hydrogen sulphide, including emergency shutdown.

Permanente link

014.9 Emergency procedures

[Niet geldig (geldigheid vanaf 2015-01-01)]

Permanente link

014.9 Emergency instructions

14.9 - Emergency instructions

14.9.1 Illustrations and instructions should be conspicuously displayed at muster stations, control positions, working spaces and accommodation spaces to inform all on board

the method of donning lifejackets; and
the method of donning immersion suits, if applicable.

14.9.2 All persons arriving on a unit for the first time, including visitors, should upon arrival on board the unit be properly instructed in the following:

the need to be prepared for an emergency;
the need to observe strictly the requirements of the muster list, in particular those relating to:

their specific conduct in any emergency,
their survival craft station,
the general emergency and fire alarm signals calling all personnel to their assigned stations,
how the order to abandon the unit will be given;

the need to be alert for the sounding of alarm signals and to respond to them in emergencies;
the location of their own and spare lifejackets and, if provided, immersion suits and the method of properly donning them;
the dangers and preferred method of jumping into the sea from a height, particularly when wearing a lifejacket;
the location of means of escape including those leading to survival craft stations;
the need to participate in any drills held during the time they are on board; and
essential fire precautions.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 31-12-2014

14.9 - Emergency instructions

14.9.1 Illustrations and instructions should be conspicuously displayed at muster stations, control positions, working spaces and accommodation spaces to inform all on board

the method of donning lifejackets; and
the method of donning immersion suits, if applicable.

14.9.2 All persons arriving on a unit for the first time, including visitors, should upon arrival on board the unit be properly instructed in the following:

the need to be prepared for an emergency;
the need to observe strictly the requirements of the muster list, in particular those relating to:

their specific conduct in any emergency,
their survival craft station,
the general emergency and fire alarm signals calling all personnel to their assigned stations,
how the order to abandon the unit will be given;

the need to be alert for the sounding of alarm signals and to respond to them in emergencies;
the location of their own and spare lifejackets and, if provided, immersion suits and the method of properly donning them;
the dangers and preferred method of jumping into the sea from a height, particularly when wearing a lifejacket;
the location of means of escape including those leading to survival craft stations;
the need to participate in any drills held during the time they are on board; and
essential fire precautions.

Permanente link

014.10 Emergency instructions

[Niet geldig (geldigheid vanaf 2015-01-01)]

Permanente link

14.10 Training manuals

14.10 - Training manuals

A training manual complying with the requirements of regulation III/51 of the 1974 SOLAS Convention should be provided and relevant information made available to each person on board.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 31-12-2014

14.10 - Training manuals

A training manual complying with the requirements of regulation III/51 of the 1974 SOLAS Convention should be provided and relevant information made available to each person on board.

Permanente link

14.11 Training manuals

[Niet geldig (geldigheid vanaf 2015-01-01)]

Permanente link

14.11 Practice musters and drills

14.11 - Practice musters and drills

14.11.1 One abandon unit drill and one fire drill should be conducted every week. Drills should be so arranged that all personnel participate in a drill at least once a month. A drill should take place within 24 hours after a personnel change if more than 25% of the personnel have not participated in abandon unit and fire drills on board that particular unit in the previous month. The Administration may accept other arrangements that are at least equivalent for those units for which this is impracticable.

14.11.2 Each abandon unit drill should include:

summoning of all on board to muster stations with the general emergency signal and ensuring that they are aware of how the order to abandon the unit will be given;
reporting to stations and preparing for the duties described in the muster list;
checking that every person is suitably dressed;
checking that lifejackets and immersion suits are correctly donned;
lowering of at least one lifeboat as far as reasonably practicable, after any necessary preparation for launching;
starting and operating the lifeboat engine; and
operation of davits used for launching liferafts.

14.11.3 Different lifeboats should, as far as practicable, be lowered in compliance with the requirements of 14.11.2.5 at successive drills.

14.11.4 Drills should, as far as practicable, be conducted as if there were an actual emergency.

14.11.5 Each lifeboat should, as far as reasonably practicable, be launched with its assigned operating crew aboard and manoeuvred in the water at least once every 3 months.

14.11.6 As far as is reasonably practicable, rescue boats, including lifeboats which are also rescue boats, should be launched each month with their assigned crew aboard and manoeuvred in the water, in all cases this requirement should be complied with at least once every 3 months.

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Ingangsdatum: 01-05-1991

Geldig tot en met: 31-12-2014

14.11 - Practice musters and drills

summoning of all on board to muster stations with the general emergency signal and ensuring that they are aware of how the order to abandon the unit will be given;
reporting to stations and preparing for the duties described in the muster list;
checking that every person is suitably dressed;
checking that lifejackets and immersion suits are correctly donned;
lowering of at least one lifeboat as far as reasonably practicable, after any necessary preparation for launching;
starting and operating the lifeboat engine; and
operation of davits used for launching liferafts.

Permanente link

14.12 Practice musters and drills

[Niet geldig (geldigheid vanaf 2015-01-01)]

Permanente link

14.12 On board training and instructions

14.12 - On-board training and instructions

14.12.1 On-board training in the use of the unit's life-saving appliances, including survival craft equipment, should be given as soon as possible but not later than one week after a person joins the unit. However, if the person is on a regularly scheduled rotating assignment to the unit, such training should be given not later than one week after the time of first joining the unit.

14.12.2 Instructions in the use of the unit's life-saving appliances and in survival at sea should be given at the same interval as the drills. Individual instruction may cover different parts of the unit's life-saving system, but all the unit's life-saving equipment and appliances should be covered within any period of 2 months. Each regularly assigned person should be given instructions which should include but not necessarily be limited to:

operation and use of the unit's inflatable liferafts;
problems of hypothermia, first-aid treatment for hypothermia and other appropriate first-aid procedures;
special instructions necessary for use of the unit's life-saving appliances ir severe weather and severe sea conditions.

14.12.3 On-board training in the use of davit-launched liferafts should take place at intervals of not more than 4 months on every unit fitted with such appliances. Whenever practicable this should include the inflation and lowering of a liferaft. This liferaft may be a special liferaft intended for training purposes only, which is not part of the unit's life-saving equipment; such a special liferaft should be conspicuously marked.

Permanente link

Ingangsdatum: 01-05-1991

Geldig tot en met: 31-12-2014

operation and use of the unit's inflatable liferafts;
problems of hypothermia, first-aid treatment for hypothermia and other appropriate first-aid procedures;
special instructions necessary for use of the unit's life-saving appliances ir severe weather and severe sea conditions.

Permanente link

14.14 On board training and instructions

[Niet geldig (geldigheid vanaf 2015-01-01)]

Permanente link

14.13 Enclosed space entry and rescue drills

[Niet geldig (geldigheid vanaf 2015-01-01)]

Permanente link

14.13 Records

14.13 - Records

The date when musters are held, details of abandonment drills, drills of other lifesaving appliances and on-board training should be recorded in such log-book as may be prescribed by the Administration. If a full muster, drill or training session is not held at the appointed time, an entry should be made in the log-book stating the circumstances and the extent of the muster, drill or training session held

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Ingangsdatum: 01-05-1991

Geldig tot en met: 31-12-2014

14.13 - Records

Permanente link

14.15 Records

[Niet geldig (geldigheid vanaf 2015-01-01)]

Permanente link

02 MODU-Code Code for the construction and equipment of mobile offshore drilling units (MODU Code)

Ingangsdatum: 01-05-1991

Code for the construction and equipment of mobile offshore drilling units (MODU Code)

		dd-mm-yyyy = Entry into force
Document	A.649(16)	01-05-1991
Amended by	MSC/Circ.561	01-02-1992
Amended by	MSC/Res.38(63)	01-07-1994
Amended by	MSC/Res.187(79)	01-07-2006
Superseded by	A.1023(26)	01-01-2012
Amended by	MSC/Res.358(92)	01-01-2015

Permanente link

Appendix Model form of Mobile Offshore Drilling Unit Safety Certificate (1989)

Permanente link

Ingangsdatum: 01-07-2006

Permanente link

Versie	Geldigheidsdatum	Status
4 [versie op het scherm]	vanaf 01-07-2006	Geldig vandaag
3	01-07-1994 t/m 30-06-2006	Was geldig
2	01-02-1992 t/m 30-06-1994	Was geldig
1	01-05-1991 t/m 31-01-1992	Was geldig

Inhoudsopgave

Alles dichtklappen Alles openklappen

Naar boven

Externe relaties

Themastructuur^

Chapter 01 General

1.1 Purpose

1.2 Application

1.3 Definitions

1.4 Exemptions

1.5 Equivalents

1.6 Surveys and certificate

1.7 Control

1.8 Casualties

1.9 Review of the Code

Chapter 02 Construction, strength and materials

02.1 General

02.2 Design loads

02.3 Structural analysis

02.4 Special considerations for surface units

02.5 Special considerations for self-elevating units

02.6 Special considerations for column-stabilized units

02.7 Fatigue analysis

02.8 Materials

02.9 Construction portfolio

2.10 Welding

2.11 Testing

Chapter 03 Subdivision, stability and freeboard

3.1 Inclining test

3.2 Righting moment and heeling moment curves

3.3 Intact stability criteria

3.4 Subdivision and damage stability

3.5 Extent of damage

3.6 Watertight integrity

3.7 Freeboard

Chapter 04 Machinery installations for all types of units

04.1 General

04.2 Machinery requirements

04.3 Steam boilers and boiler feed systems

04.4 Steam pipe systems

04.5 Machinery controls

04.6 Air pressure systems

04.7 Arrangements for oil fuel lubricating oil and other flammable oils

04.8 Bilge pumping arrangements

04.9 Ballast pumping arrangements on column-stabilized units.

4.10 Protection against flooding

4.11 Anchoring arrangements for surface and column-stabilized units*

4.12 Dynamic positioning systems

Chapter 05 Electrical installations for all types of units

5.1 General electrical requirements

5.2 Main source of electrical power

5.3 Emergency source of electrical power

5.4 Starting arrangements for emergency generators

5.5 Precautions against shock Precautions against shock, fire and other hazards of electrical origin

5.6 Internal communication

Chapter 06 Machinery and electrical installations in hazardous areas for all types of units

6.1 Zones

6.2 Classification of hazardous areas*

6.3 Openings access and ventilation conditions affecting the extent of hazardous areas

6.4 Ventilation of spaces

6.5 Emergency conditions due to drilling operations

6.6 Electrical installations in hazardous areas

6.7 Machinery installations in hazardous areas

Chapter 07 Machinery and electrical installations for self-propelled units

07.1 General

07.2 Means of going astern

07.3 Steam boilers and boiler feed systems

07.4 Machinery controls

07.5 Steering gear

07.6 Electric and electrohydraulic steering gear

07.7 Communication between the navigating bridge and the engine-room

07.8 Engineers'' alarm

07.9 Main source of electrical power

7.10 Emergency source of electrical power

Chapter 08 Periodically unattended machinery spaces for all types of units

8.1 General

8.2 Application

8.3 Fire safety

8.4 Protection against flooding

8.5 Bridge control of propulsion machinery

8.6 Communication

8.7 Alarm system

8.8 Special requirements for machinery boiler and electrical installations