1.1 - Purpose

1.1.1 These Guidelines and Specifications contain requirements regarding the design, installation, performance and testing of oil discharge monitoring and control systems on oil tankers as required by regulation 31 of MARPOL Annex I.

1.1.2 The purpose of these Guidelines and Specifications is:

1. to provide a uniform interpretation of the requirements of regulation 31 of MARPOL Annex I;
   
   
2. to assist Administrations in determining appropriate design, construction and operational parameters for oil discharge monitoring and control systems for oil tankers, hereafter referred to as .monitoring systems., when such systems are fitted in ships flying the flag of their State;
   
   
3. to define test and performance requirements for oil content meters and control sections forming part of monitoring systems;
   
   
4. to define requirements for plan approval of installations and functional testing of installed equipment; and
   
   
5. to provide guidance for the survey of installations on board.
   
   

1.1.3These Guidelines and Specifications also apply to oil content monitoring systems used for monitoring each individual bio-fuel blend containing 75 per cent or more of petroleum oil, carried in accordance with paragraph 4.1 of MEPC.1/Circ.761. Wherever in these Guidelines and Specifications reference is made to oil being monitored, this applies likewise to bio-fuel blends.

1.2.1 The Revised Guidelines and Specifications apply to equipment installed in oil tankers the keels of which are laid, or which are at a similar stage of construction, on or after 1 January 2005. The Guidelines and Specifications adopted under resolutions A.393(X), A.496(XII), MEPC.13(19) and A.586(14) are not applicable to oil tankers to which these new Guidelines and Specifications apply.

1.2.2 Equipment installed in other oil tankers the keels of which are laid, or are in a similar stage of construction, before 1 January 2005, should comply either with the requirements contained in the Guidelines and Specifications adopted under resolutions A.393(X), A.496(XII), MEPC.13(19) and A.586(14), as applicable, or with the requirements contained in these new Guidelines and Specifications.

The approval requirements for various parts of a monitoring system as specified in these Guidelines and Specifications are summarized below:

.1 the oil content meter should be tested for type approval in accordance with the procedures described in part 1 of the Annex;

.2 the oil content meter and the control section of a monitoring system should be subjected to the environmental tests specified in part 2 of the annex;

.3 documentation for plan approval, as specified in section 8, should be submitted to the Administration prior to the installation of the monitoring system;

.4 the component parts of the system should undergo the workshop functional tests specified in section 8; and

.5 the complete monitoring system should be surveyed in accordance with the procedures laid down in section 11.

6.1 - Oil discharge monitoring and control system

6.1.1 The monitoring system should be capable of effectively monitoring and controlling the discharge of any effluent into the sea through those overboard discharge outlets permitted by regulation 30 which, in the opinion of the Administration, are necessary to fulfil the operational requirements of the oil tanker.

6.1.2 The discharge of dirty ballast water or other oil-contaminated water from the cargo tank areas into the sea through outlets which are not controlled by the monitoring system is an infringement of the Convention.

6.1.3 The monitoring system should function effectively under all environmental conditions which oil tankers are normally assumed to encounter, and should be designed and constructed to satisfy the specifications for environmental testing specified in part 2 of the annex to these Guidelines and Specifications. Moreover,

1. the system should be so designed that no discharge of dirty ballast or other oil-contaminated water from the cargo tank areas can take place unless the monitoring system is in the normal operating mode and the relevant sampling point has been selected;
   
   
2. preferably the system should sample the effluent discharge from a minimum number of discharge outlets and be so arranged that discharge overboard can take place via only one outlet at a time;
   
   
3. where it is intended that more than one line be used for simultaneous discharging purposes, one oil content meter, together with a flow meter, should be installed in each discharge line. These instruments should be connected to a common processor; and
   
   
4. in order to avoid alarms due to short-term high oil concentration signals (spikes) causing indications of high instantaneous rates of discharge, the short-term high ppm signal may be suppressed for a maximum of 10 s. Alternatively, the instantaneous rate of discharge may be continuously averaged during the preceding 20 s or less as computed from instantaneous ppm values of the oil content meter readings received at intervals not exceeding 5 s.
   
   

6.1.4 The monitoring system should comprise:

1. an oil content meter to measure the oil content of the effluent in ppm. The meter should be approved in accordance with the provisions contained in the annex to these Guidelines and Specifications and be certified to take into account the range of cargoes carried;
   
   
2. a flow rate indicating system to measure the rate of effluent being discharged into the sea;
   
   
3. a ship speed indicating device to give the ship.s speed in knots;
   
   
4. a ship position indicating device to give the ship’s position . latitude and longitude;
   
   
5. a sampling system to convey a representative sample of the effluent to the oil content meter;
   
   
6. an overboard discharge control to stop the overboard discharge;
   
   
7. a starting interlock to prevent the discharge overboard of any effluent unless the monitoring system is fully operational; and
   
   
8. a control section comprising:
   
   
   1. a processor, which accepts signals of oil content in the effluent, the effluent flow rate and the ship.s speed and computes these values into litres of oil discharged per nautical mile and the total quantity of oil discharged;
      
      
   2. means to provide alarms and command signals to the overboard discharge control;
      
      
   3. a recording device to provide a record of data in accordance with paragraph 6.9.2;
      
      
   4. a data display to exhibit the current operational data in accordance with paragraph 6.10;
      
      
   5. a manual override system to be used in the event of failure of the monitoring system; and
      
      
   6. means to provide signals to the starting interlock to prevent the discharge of any effluent before the monitoring system is fully operational.

 

6.1.5 Each main component of the oil content monitoring system should be fitted with a name-plate, properly identifying the component by assembly drawing number, type or model number and serial number, as appropriate.

6.1.6 If installed in a hazardous area, the electrical components of the monitoring system should meet the appropriate safety requirements¹ laid down for these areas.

---

¹As specified in IEC publication 92 or an equivalent standard acceptable to the administration.

6.2.1 An oil content meter should satisfy the test and performance specifications contained in part 1 of the Annex to these Guidelines and Specifications and should conform with the general requirements contained in this subsection.

6.2.2 The accuracy of meters designed to monitor a wide range of oil content should be such that the reading will represent the actual oil content of the sample being tested within +10 ppm or +10%, whichever is the greater. The accuracy should remain within the above limit despite the presence of contaminants other than oil, such as entrained air, rust, mud and sand.

6.2.3 The meter should be designed so that it functions within the above limit when the power supply (in the form of electricity, compressed air, etc.) is varied by 10% from the value for which the meter is designed.

6.2.4 It is desirable that the reading should not be affected by the type of oil. If it is, it should not be necessary to calibrate the meter on board ship, but pre-set alterations in the calibration may be made in accordance with the manufacturer.s instructions. In the latter case, means should be available to check that the correct calibration has been selected for the oil in question. The accuracy of the readings should at all times remain within the limit specified in 6.2.2.

6.2.5 The response time of the meter, as defined in paragraph 1.2.8 of part 1 of the annex, should not exceed 20 s.

6.2.6 The meter may have several scales as appropriate for its intended use. The full range of the scale should not be less than 1,000 ppm.

6.2.7 The meter should have simple means to enable the ship.s crew to check the functioning of the electrical and electronic circuitry of the meter by introduction of a simulated signal corresponding approximately to half the full-scale reading of the meter. It should also be possible for qualified personnel to recalibrate the meter on board the oil tanker.

6.2.8 The meter should, if intended to be fitted in locations where flammable atmospheres may be present, comply with the relevant safety regulations for such spaces. Any electrical equipment which is part of the meter should be placed in a non-hazardous area, or should be certified by the Administration as safe for use in a hazardous atmosphere. Any moving parts which are fitted in hazardous areas should be so arranged as to avoid the formation of static electricity.

6.2.9 The meter should not contain or use any substance of a dangerous nature, unless adequate arrangements, acceptable to the Administration, are provided to eliminate any hazard introduced thereby.

6.2.10 The meter should resist corrosion in conditions of the marine environment.

6.2.11 The meter should be constructed from materials compatible with the liquids to be tested.

---

* As specified in IEC publication 92 or its equivalent.

6.3.1 Sampling points should be so located that relevant samples can be obtained from those outlets that are used for operational discharges in accordance with paragraph 6.1.1. The sampling probes located in the overboard discharge lines and the piping system connecting the sampling probes to the oil content meter should meet the requirements of this section.

6.3.2 The piping and probes should be of a material resistant to fire, corrosion, and oil and be of adequate strength, properly jointed and supported.

6.3.3 The system should have a stop-valve fitted adjacent to each probe, except that, where the probe is mounted in a cargo line, two stop-valves shall be fitted, in series, in the sample line; one of these may be the remote controlled sample selector valve.

6.3.4 Sampling probes should be arranged for easy withdrawal and should as far as practicable be mounted at an accessible location in a vertical section of the discharge line. Should it be necessary to fit sampling probes in a horizontal section of the discharge line it should be ascertained, during the installation survey, that the pipe runs full of liquid at all times during the discharge of the effluent. Sampling probes should normally penetrate inside the discharge pipe to a distance of one quarter the diameter of that pipe.

6.3.5 Means should be provided for cleaning the probes and piping system by the provision of permanent clean water flushing arrangements or an equivalent method. The design of the probes and piping should be such as to minimize their clogging by oil, oily residue, and other matter.

6.3.6 The velocity of the fluid in the piping should be such that, taking into consideration the length of the piping, the overall response time should be as short as possible between an alteration in the mixture being pumped and the alteration in the meter reading and in any case not more than 40 s, including the response time of the meter.

6.3.7 The location of sampling probes in relation to any point of flow diversion to a slop tank should be selected with regard to the need for sampling the oily water in the recirculation mode.

6.3.8 The arrangements for driving the sampling pump or any other pumps used in the system should have regard to the safety requirements of the space in which the pump is located. Any bulkhead penetration between a hazardous and a non-hazardous area should be of a design approved by the Administration.

6.3.9 The flushing arrangement should be such that where necessary it can be utilized for test-running and stabilizing the oil content meter and correcting for zero setting.

6.3.10 Sample water returning to the slop tank should not be allowed to free-fall into the tank. In tankers equipped with an inert gas system a U-seal of adequate height should be arranged in the piping leading to a slop tank.

6.3.11 A valve should be provided for the manual collection of samples from the inlet piping to the meter at a point downstream of any sampling pump or at an equivalent location satisfactory to the Administration.

6.4.1 A flow meter for measuring the rate of discharge should be installed in a vertical section of a discharge line or in any other section of a discharge line as appropriate, so as to be always filled with the liquid being discharged.

6.4.2 A flow meter should employ an operating principle which is suitable for shipboard use and, where relevant, can be used in large diameter pipes.

6.4.3 A flow meter should be suitable for the full range of flow rates that may be encountered during normal operation. Alternatively, arrangements such as the use of two flow meters of different ranges or a restriction of the operational flow rate range may be necessary to meet this requirement.

6.4.4 The flow meter, as installed, should have an accuracy of +10%, or better, of the instantaneous rate of discharge throughout the operating range for discharging the effluent.

6.4.5 Any component part of the flow meter in contact with the effluent should be of corrosionresistant and oil-resistant material of adequate strength.

6.4.6 The design of the flow metering arrangements should have regard to the safety requirements of the space in which such metering arrangements are located.

6.5.1 The automatic speed signal required for a monitoring system should be obtained from the ship.s speed indicating device* by means of a repeater signal. The speed information used may be either speed over the ground or speed through the water, depending upon the speed measuring equipment installed on board.

---

* See .Recommendation on Performance Standards for Devices to Indicate Speed and Distance. (Annex to resolution A.824(19) as amended by resolution MSC.96(72)).

6.6.1 The ship position indicating device shall consist of a receiver for a global navigation satellite system or a terrestrial radio navigation system, or other means, suitable for use at all times throughout the intended voyage to establish and update the ship.s position by automatic means.

6.7.1 The overboard discharge control should be able to stop the discharge of the effluent into the sea automatically by either closing all relevant overboard discharge valves or stopping all relevant pumps. The discharge control arrangement should be fail-safe so that all effluent discharge is stopped when the monitoring system is not in operation, at alarm conditions, or when the monitoring system fails to function.

6.8 - Processor and transmitting device

6.8.1 The processor of a control section should receive signals from the oil content meter, the flow rate indicating system and the ship.s speed indicating system at time intervals not exceeding five seconds and should automatically compute the following:

1. instantaneous rate of discharge of oil in litres per nautical mile; and
   
   
2. total quantity of oil discharged during the voyage in cubic metres or litres.
   
   

6.8.2 When the limits imposed by regulation 31.1.4 and 31.1.5 are exceeded, the processor should provide alarms and provide command signals to the overboard discharge control arrangement which will cause the discharge of effluent into the sea to stop.

6.8.3 The processor should normally include a device for the continuous generation of time and date information. Alternative arrangements for the automatic and continuous reception of time and date information from an external source may be accepted.

6.8.4 In the event of power failure the processor should retain its memory in respect to computation of the total quantity of oil discharged, time and date. A printout of data should be obtained when the monitoring system is operating with manual override, but this is not required if, when the power fails, the monitoring system activates the overboard discharge control to stop the discharge of effluent.

6.9.1 The recording device of a control section should include a digital printer, which may be formatted electronically if preferred. The recorded parameters should be explicitly identified on the printout. The printout should be legible and should remain so once removed from the recording device and should be retained for at least three years.

6.9.2 The data to be automatically recorded should include at least the following:

.1 instantaneous rate of discharge of oil (litres per nautical mile);

.2 instantaneous oil content (ppm);

.3 the total quantity of oil discharged (cubic metres or litres);

.4 time and date (GMT);

.5 ship.s speed in knots;

.6 ship.s position . latitude and longitude;

.7 effluent flow rate;

.8 status of the overboard discharge control or arrangement;

.9 oil type selector setting, where applicable;

.10 alarm condition;

.11 failure (i.e. no flow, fault, etc.); and

.12 override action (i.e. manual override, flushing, calibration, etc.). Any information inserted manually as a result of an override action should be identified on the printout.

6.9.3 Data required in paragraph 6.9.2 of these Guidelines and Specifications should be printed out, as applicable, or may be stored electronically with printout capability, with the following minimum frequency:

.1 when the discharge is started;

.2 when the discharge is stopped;

.3 at intervals of not more than 10 min (except when the system is in stand-by mode);

.4 when an alarm condition develops;

.5 when normal conditions are restored;

.6 whenever the computed rate of discharge varies by 10 litres per nautical mile;

.7 when zero-setting or calibration modes are selected; and

.8 on manual command. 6.9.4 The recording device should be located in a position easily accessible to the person in charge of the overboard discharge operation.

6.10.1 In addition to the recorded printout, the current data should be visibly displayed and should as a minimum contain the following:

.1 instantaneous rate of discharge of oil (litres per nautical mile);

.2 total quantity of oil discharged (cubic metres or litres);

.3 instantaneous oil content (ppm)

.4 flow rate;

.5 ship.s speed; and

.6 status of the overboard discharge control or arrangement. 6.10.2 The data display should be located in a position easily observed by the person in charge of the overboard discharge operation.

6.11 - Manually operated alternatives in the event of equipment malfunction

6.11.1 The alternative means of obtaining information in the event of a failure in the monitoring system should follow the requirements in MARPOL Annex I, regulation 31.4 and the operational manual as approved by the Administrations and should be as follows:

1. oil content meter or sampling system: location and measurement of the oil/water interface using the equipment as required in regulation 32, visual observation of the surface of the water adjacent to the effluent discharge and recording the relevant data for the discharge accurately in the Oil Record Book Part II in sections H and I;
   
2. flow meter: pump discharge characteristics, etc.;
   
   
3. ship.s speed indicating device: main engine rpm, etc.;
   
   
4. processor: manual calculation and manual recording; and
   
   
5. overboard discharge control: manual operation of pumps and valves.

6.12 - Alarm conditions resulting in the stopping of discharge

Audio-visual alarms should be activated for any of the following conditions and the monitoring system should be so arranged that the discharge of effluent into the sea is stopped:

1. whenever the instantaneous rate of discharge of oil exceeds 30 litres per nautical mile;
   
   
2. when the total quantity of oil discharged reaches 1/30,000¹ of the previous cargo;
   
   
3. in the event of failure of the system.s operation, such as:
   
   

1. power failure;
   
   
2. loss of sample;
   
   
3. significant failure of the measuring or recording system; or
   
   
4. when the input of any sensor exceeds the effective capacity of the system.

---

¹Existing ships to comply with requirements of regulation 34.1.5 of MARPOL Annex I.

The alarm indicator of the system should be installed in the cargo control room, where provided, and/or in other places where it will attract immediate attention and action.

1.1.1 This test and performance specification for type approval relates to oil content meters for oil discharge monitoring and control systems for oil tankers. A meter may be tested for one of several specified applications (crude oils, black products, and white products) and the certificate of type approval should clearly indicate the accepted application(s). In addition, the electronic and measuring section of the oil content meter should be tested in accordance with the specification for environmental testing contained in part 2 of this annex.

1.1.2 The meter being tested should satisfy all the relevant requirements contained in section 6 of these Guidelines and Specifications.

1.2 - Test specifications

1.2.1 A meter designed to operate over a wide range of oil content should measure the true oil content of the sample entering the meter during each test within +10 ppm or +10%, whichever is the greater, and testing should be performed in accordance with the procedures detailed in paragraphs 1.2.5 to 1.2.18 of this specification. The accuracy should remain within these limits in the presence of contaminants other than oil and +10% variations from design criteria with respect to power (electricity and compressed air).

1.2.2 A diagrammatic arrangement of a test rig for evaluating the performance of oil content meters is given in figure 1. The accuracy of the oil content meter should be determined by comparing its readings with a known flow of oil injected into a known flow of water. The grab samples taken should be analysed in a laboratory by the method described in paragraph 1.3 of this specification. The results of the laboratory analysis will be used for correlation and to indicate sampling and test equipment variability. The water flow rate should be adjusted so that the entire oil-water flow passes through the oil content meter, except the intermittent grab sample stream. Special care should be given to keep, continuously, a constant oil content in the water that flows into the meter. The oil and contaminant metering pumps should be adjusted to deliver a steady flow. If oil injection becomes intermittent at low concentrations, the oil may be premixed with water to provide continuous flow, if absolutely necessary. The oil injection point should be immediately upstream of the oil content meter inlet to minimize time lags caused by the sample system. Wherever No.2 crude oil is specified in particular tests, a similar crude oil may be substituted, provided that the oil selected is used throughout the tests.

1.2.3 The sampling arrangement should be such that a representative homogeneous sample is obtained under all conditions of operation and under all operational proportions of oil content. The sample should be obtained from the full flow through the meter, but when this is impracticable, the sampling arrangements shown in figure 2 should be used. Special care should be taken in collecting and preserving the sample to ensure validity of the resultant findings.

1.2.4 Should the oil content meter incorporate a filter or other device for removing solid contaminants from the mixture to be tested, such a device should be regarded as part of the oil content meter and be connected during all the tests. After completion of the contaminant, tests referred to in paragraph 1.2.10 the device used to remove solid contaminants from the mixture should be opened up and the residues inspected to ascertain that they do not contain significant amounts of oil.

1.2.5Calibration and zero test. The oil content meter should be calibrated and zeroed in accordance with the manufacturer.s instructions. It should then be tested using the No.2 crude oil at the following concentrations in ppm 0, 15, 50, 100, 200 and at intervals of 200 up to the maximum of the meter.s highest range. A complete calibration curve should be constructed. Each concentration test should last for 15 min. After each concentration test the meter should be run on oil-free water for 15 min and the reading noted. The instrument should not be re-calibrated in spite of any movement from zero.

1.2.6 Response tests. Different oil types . After calibration in the previous test, the oil content meter should be tested at concentrations of 15 ppm, 150 ppm and 90% of the maximum full-scale with the following oils. Additional concentrations may be added if required to construct a complete calibration curve for each of the following oils:

For Crude Oil¹

 

The characteristics of the oil and age of sample shall be recorded. Samples used for approval must be less than 12 months old.

Following each test, the meter should be run on oil-free water for 15 min and the meter reading recorded. Should the meter reading at zero oil through put exceed the accuracy requirement, an automatic cleaning device should be fitted to the instrument as standard. If it is necessary to re-zero, recalibrate, or clean the meter between tests, this fact and the time required to recalibrate or clean the meter should be noted and recorded on the certificate.

1.2.7 White petroleum products. If the meter is considered suitable for .white. petroleum products, it should also be tested with the following products in a manner similar to the tests set out in paragraphs 1.2.5 and 1.2.6:

1. Automotive gasoline;
   
   
2. Kerosene; and
   
   
3. Marine distillate fuel oil - DMA - ISO 8217:2010/Corr 1:2011 (tables 1 and 2).
   
   

If the meter is to be considered suitable for any of the category C and D oil-like noxious liquid substances referred to in the list contained in the unified interpretations to regulation 14 of Annex II of MARPOL 73/78, it should also be tested against each such substance for which approval is required, in a manner similar to the tests set out in paragraphs 1.2.5 and 1.2.6. The high shear pump shown in figure 1 should be kept in operation at high speed during this test to assist in dissolving the appropriate fraction of the substance in the water stream.

1.2.8 If the meter is to be considered suitable for an individual biofuel blend containing 75 per cent or more of petroleum oil, it should also be tested against each such substance for which approval is required, in a manner similar to the tests set out in paragraphs 1.2.5 and 1.2.6. The high shear pump shown in figure 1 should be kept in operation at high speed during this test to assist in dissolving the appropriate fraction of the substance in the water stream.

1.2.9 Individual Biofuel blends should be tested at 75 per cent and 99 per cent petroleum oil.

1.2.10 Response times. The oil content meter should be run on oil-free water and zeroed. The oil injection pump, set to 100 ppm No.2 crude oil, should be turned on.

The following response times should be recorded and included on the certificate:

1. time for first detectable reading;
   
   
2. time to read 63 ppm;
   
   
3.  time to read 90 ppm; and
   
   
4. time to read 100 ppm or for reading to stabilize at maximum, the value (ppm) of which should be recorded.

Following this upscale test, the oil injection pump should be turned off and the following response times should be recorded and included on the certificate:

5. time for the maximum reading to drop detectably;
   
   
6. time to read 37 ppm;
   
   
7. time to read 10 ppm; and
   
   
8. time for reading to stabilize at minimum, the value (ppm) of which should be recorded.

 

The response time of the meter, which should be taken as the average of the response time recorded to read 63 ppm and the response time recorded to read 37 ppm, should be less than 20 s.

1.2.11 Oil fouling and calibration shift tests. Two tests using No.2 crude oil should be performed to determine the effect of oil fouling on calibration shift. The first test should be done with a 10% oil concentration and the second with a 100% oil concentration.

For the 10% oil concentration test, the meter should initially be running on oil-free water. The high capacity oil injection pump, set to give 10% oil in water, should be turned on for 1 min and then turned off.

For the 100% oil concentration test, the meter should be running on oil-free water. The water should be turned off and 100% oil turned on for 1 min. The oil should then be turned off and the oil-free water flow resumed.

Care must be taken in the design of the test equipment to ensure that the oil fouling test results are not degraded by fouling of the sample piping external to the meter.

The following response times should be noted for both tests and recorded on the certificate:

1. time for first detectable reading;
   
   
2. time to read 15 ppm;
   
   
3. time to read 100 ppm;
   
   
4. time for reading to go off scale on the highest range;
   
   
5. time for reading to return back on scale on the highest range;
   
   
6. time for reading to return to 100 ppm;
   
   
7. time for reading to return to 15 ppm; and
   
   
8. time for reading to return to zero or stabilize at minimum ppm reading.

 

If it is necessary to clean the meter after each oil fouling test for it to return to a zero reading, this fact and the time required to clean and recalibrate the meter shall be noted and recorded on the certificate.

After successful completion of both oil fouling tests, a 100 ppm mixture of No.2 crude oil should be introduced and any calibration shift noted and recorded on the certificate.

1.2.12 Contaminant tests. The meter should be run on contaminant test as follows:

1. the contaminants should be mixed in the mixing tank with clean water as follows: not less than 270 ppm by weight of attapulgite (see note (a)) and 30 ppm by weight of iron oxides (see note (b)). Each material should be mixed sequentially in the mixing tank to the following criteria:
   
   
   1. attapulgite for a period of not less than 15 min so that a homogenous suspension is formed; iron oxides for an additional period of not less than 10 min. The mixing process should maintain the contaminants in suspension throughout the test period;
      
      
2. the meter should be run on a mixture of clean water and No.2 crude oil of 15 ppm;
   
   
3. the water supply should be changed from clean water to contaminated water;
   
   
4. any shift in the meter reading should be noted in the certificate. The meter reading should be within the accuracy limits specified in 1.2.1;
   
   
5. the test specified in .2, .3, and .4 above, should be repeated with oil concentrations of 100 ppm and 300 ppm; and
   
   
6. sufficient water should be available in the mixing tanks to ensure an effective test period of not less than 15 min.

 

Notes:

1. Attapulgite is a clay mineral with the chemical formula (MgAl)5Si8O22(OH)44H2O and is stable in both fresh and salt water. The test contaminant should have a particle size distribution with about 30% of 10 microns or less and a maximum particle size of 100 microns.
   
   
2. The term .iron oxides. is used to describe black ferrosoferric oxide (Fe3O4) with a particle size distribution of which 90% is less than 10 microns, the remainder having a maximum particle size of 100 microns.

 

1.2.13 Air entrainment test

1. The meter should be run on a mixture of water and 15 ppm No.2 crude oil.
   
   
2. Air should be injected into the test circuit immediately before the sample pump or, in the absence of such pump, immediately before any conditioning unit used to prepare the mixture for measurement. Injection should be by needle having an orifice dimension not exceeding 0.5 mm in diameter arranged in line with the sample flow. The quantity of air injected should be 1% of the designated flow rate of the sample pump or conditioning unit at the point of injection. Air should be delivered to the system by direct injection or pump via a suitable measuring device designed to permit a constant controllable flow rate within +10% of the required rate of injection for an uninterrupted effective test period of not less than 15 min.
   
   
3. Any shift in the meter reading should be recorded on the certificate.
   
   
4. The tests specified in points 1, 2 and 3 should be repeated with an oil concentration of 100 ppm and 300 ppm respectively.

 

1.2.14 Oil particle size - shear pump test. The meter should be run on a mixture of water and No. 2 crude oil of 100 ppm. The high shear pump, shown in figure 1, should be run at various speeds to provide a range of oil particle size to the meter and on completion of this test the pump should be stopped. Any effect of particle size on the meter reading should be noted and recorded on the certificate. The purpose of this test is to demonstrate that the meter.s accuracy is not significantly affected by the oil droplet size or by the degree of oil and water mixing.

1.2.15 Temperature test. The meter should be run on a mixture of water and No.2 crude oil of 100 ppm. The water temperature should initially be set at 10oC and then at 65oC. If the manufacturer.s specification lists an operating maximum water temperature of less than 65oC,the meter should be run at that maximum temperature and this fact, together with any effect of water temperature on the meter reading, should be recorded on the certificate.

1.2.16 Sample pressure or flow test. The meter should be run on a mixture of water and No.2 crude oil of 100 ppm. The water pressure or flow rate of the mixture should be adjusted from one-half normal, to normal and to twice normal. Any effect of these changes on the meter reading should be recorded on the certificate. This test may require modification, depending on the flow characteristics of the meter.

1.2.17 Shut-off test. The meter should run on a mixture of water and No.2 crude oil of 100 ppm. The water and oil injection pumps should be shut off and the meter left on with no other changes made. After eight hours, the water and the oil injection pumps should be turned on and set to provide a mixture of 100 ppm. The meter readings before and after each test and any damage to the meter should be recorded on the certificate. This test also determines the proper functioning of the low flow shut-off and alarm.

1.2.18 Utility supply variation test. The meter should be run on a mixture of water and No.2 crude oil of 100 ppm. The supply voltage should be increased to 110% of the nominal value for one hour and then reduced to 90% of the nominal value for one hour. Any effect on meter performance should be recorded on the certificate. If the operation of the meter requires any utilities besides electricity, it should be tested with these utilities at 110% and 90% of the design figures.

1.2.19 Calibration and zero drift test. The meter should be calibrated and zeroed in accordance with the procedures in the manufacturer.s instructions manual. A mixture of water and No.2 crude oil of 100 ppm should be run through the meter for eight hours and any calibration drift recorded on the certificate. Following this, the meter should be run on oil-free water and any zero drift recorded on the certificate.

1.2.20 Shut-down and re-energization test. The meter should be shut down and de-energized for one week. It should be turned on and started in accordance with the manufacturer.s instructions. After the suggested warm-up and calibration procedures, the meter should be run for a period of eight hours, operating alternatively for one hour on a mixture of water and No.2 crude oil of 100 ppm and for one hour on oil-free water. After each step in the operation, any zero or span drift should be recorded on the certificate. The total time required to perform the manufacturer.s suggested warm-up and calibration should also be recorded on the certificate.

1.2.21 Reporting of test results. A specification of the instrument concerned and a diagrammatic presentation of the test arrangements should be provided to the Administration by the manufacturer when applying for type approval and the following data should be reported in the international metric system of units:

1. types and properties of oils used in the tests;
   
   
2. details of contaminants used, in the form, for example, of a supplier.s certificate or laboratory test protocol; and
   
   
3. results of tests and analysis of grab samples.

 

The recommendations of the manufacturer of the oil content meter concerning the choice and application of cleansing agents used for cleaning purpose should be recorded in the appendix to the type approval certificate.



The size of the mixing tank should be specified so as to allow a minimum "once through" effective test period of 15 min. Adequate arrangements should be made for in-tank mixing or recycling to ensure a homogeneous mixture.

The determination of the oil content will be performed according to the International Standard ISO 9377-2:2000 "Water quality" Determination of hydrocarbon oil index . Part 2: Method using solvent extraction and gas chromatography. that specifies a method for sampling and subsequent determination of the hydrocarbon oil index in water using solvent extraction and gas chromatography. This method should be used for the determination of oil content requirements outlined in these Guidelines and Specifications.

2.1.1 The specification for environmental testing for type approval relates to the electronic section of the oil content meter and the control section of a monitoring and control system. A control section may be an independent unit or be combined with the electronic part of the oil content meter.

2.1.2 The equipment tested should comply with all the relevant requirements contained in section 5 of the Guidelines and Specifications.

2.2.1 Testing requirements

The electrical and electronic section of the oil content meter and the control section of the monitoring system in the standard production configuration should be subjected to the programme of environmental tests set out in this specification at a laboratory approved for the purpose by the Administration or by the competent authority of the manufacturer.s home country. A copy of the environmental test document, in a format similar to that specified in paragraph 3.2 of this specification, should be submitted to the Administration by the manufacturer together with the application for type approval.

2.2.2 Test specification details

Equipment should operate satisfactorily on completion of each of the following environmental tests:

.1 Vibration tests

.1.1 a search should be made for resonance over the following range of frequency and amplitude or acceleration:

.1.1.1 2 to 13.2 Hz with an amplitude of +1 mm; and

.1.1.2 13.2 to 80 Hz with an acceleration of +0.7 g; This search should be made in each of the three planes at a rate sufficiently low to permit detection of resonance;
.1.2 the equipment should be vibrated in the planes at each major resonant frequency for a period of two hours;

.1.3 if there is no resonant frequency, the equipment should be vibrated in each of the plans at 30 Hz with an acceleration of +0.7 g for a period of two hours;

.1.4 after completion of the tests specified in .1.2 or .1.3 of this paragraph a search should again be made for resonance and there should be no significant change in the vibration pattern;
.2 Temperature tests

.2.1 Equipment that may be installed in exposed areas on the open deck or in an enclosed space not environmentally controlled should be subjected, for a period of not less than two hours, to:

.2.1.1 a low temperature test at .25oC; and

.2.1.2 a high temperature test at 55oC;
.2.2 Equipment that may be installed in an enclosed space that is environmentally controlled including an engine-room, should be subjected, for a period of not less than two hours, to:

.2.2.1 a low temperature test at 0oC; and

.2.2.2 a high temperature test at 55oC; At the end of each of the tests referred to in this subparagraph above, the equipment should be switched on and it should function normally under the test conditions;
.3 Humidity tests

Equipment should be left switched off for a period of two hours at a temperature of 55oC in an atmosphere with a relevant humidity of 90%. At the end of this period, the equipment should be switched on and should operate satisfactorily for one hour;

.4 Tests for protection against heavy seas

Equipment that may be installed in exposed areas on the open deck shall be subjected to tests for protection against heavy seas in accordance with lP 56 of IEC publication 529 or its equivalent;

.5 Fluctuation in power supply

.5.1 Equipment should operate satisfactorily with:

.5.1.1 a voltage variation of +10% together with a simultaneous frequency variation of +5%;
.5.1.2 a transient voltage of +20% together with a simultaneous frequency transient of +10%, with a transient recovery time of three seconds;
.6 Inclination test

Equipment should operate satisfactorily at angles of inclination up to 22.5oC in any plane from the normal operating position;

.7 Reliability of electrical and electronic equipment

The electrical and electronic components of the equipment should be of a quality guaranteed by the manufacturer and suitable for their intended purpose.

3.1.1 Satisfactory compliance with all the test requirements enumerated in part 1 of this annex should be shown in the certificate of type approval issued by the Administration in the format specified in paragraph 3.1.2 below. An Administration may issue a certificate of type approval based on separate testing or on testing already carried out under supervision by another Administration. 3.1.2 A certificate of type approval should be in the format shown in the appendix to this annex. The certificate should identify the type and model of the oil content meter to which it applies and identify equipment assembly drawings, duly dated. Each drawing should bear the model specification numbers or equivalent identification details. The certificate should include the full performance test protocol on which it is based. If a certificate of type approval is issued by an Administration based on a certificate previously issued by another Administration, the certificate should identify the Administration which conducted the tests on the oil content meter and a copy of the original test should be attached to it.

3.2.1 Satisfactory compliance with the environmental tests laid down in these Guidelines and Specifications, where applicable, should be shown on the environmental test protocol issued by the testing laboratory. The protocol should include at least the following details:

.1 identification of the equipment by type and drawing number, duly dated; and

.2 a statement of the tests conducted on the equipment, including the results thereof.

3.2.2 The environmental test protocol should be endorsed by either the Administration or a competent authority of the manufacturer.s home country to confirm that the laboratory is approved to conduct such tests. The protocol should also be signed and dated by the person in charge of the laboratory.