Office of the Iraq Programme Oil for Food

Information for Companies and Delegations

Annex A to resolution 1454 (2002)

ADJUSTMENTS TO THE GOODS REVIEW LIST (GRL)

Chemical Section:

(1) C.l.0.4.1.0: Quantities of Atropine in doses greater than 0.6 mg/ml, Pralidoxime, Pyridostigmine and their respective salts, medical solutions of Sodium Nitrite, Sodium Thiosulfate that exceed the established consumption rates.

(2) A.52: Any inorganic phosphide that exceeds established consumption rates.

Note: Quantities of phosphides utilized with food grain shipments do not require review provided the amounts do not exceed 20 g of phosphide per metric tonne of grain.

(3) A.02, A.06, A.07, A.08, B.0l, B.02, B.03, B.08, B.l0, B.11, B.12: Remove n=1-3 restriction on various chemical entries.

Note: For List B chemicals:

Where n=1-3, the chemical shall be considered prohibited. Where n>3, the chemical will be referred for review

(4) 1.A.4.d: Quantities of activated carbon, that have been tested and certified effective for chemical weapons agent absorption, that exceed the established consumption rates.

(5) A.53: Quantities of organophosphate pesticides that exceed established consumption rates.

(6) C.l0.4.6: Equipment designed for the disposal of toxic chemicals as follows:

(a) Incineration equipment with an average combustion chamber temperature of over 1,273 K (1,000 C) or catalytic incineration equipment with an average combustion chamber temperature of over 623 K (350 C);

(b) Equipment utilizing disposal technologies other than incineration equipment in (a) to detoxify toxic chemicals including but not limited to liquid neutralization, gas phase chemical reduction, supercritical water oxidation, direct chemical oxidation, solvated electron, and plasma arc processes.

b.l. Liquid neutralization equipment, and specially designed waste supply and material handling systems, with reactor volumes of 0.100 m³ (100 litres) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials.

b.2. Gas phase chemical reduction equipment, and specially designed waste supply and material handling systems, with continuous flow capacities for the disposal of toxic chemicals of 0.05 m³/hr (50 litres/hour) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials.

b.3. Supercritical water oxidation equipment, and specially designed waste supply and material handling systems, with reactor volumes of 0.05 m³ (50 litres) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials.

b.4. Direct chemical oxidation equipment, and specially designed waste supply and material handling systems, with reactor volumes of 0.100 m³ (100 litres) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials.

b.5. Solvated electron equipment, and specially designed waste supply and material handling systems, with reactor volumes of 0.100 m³ (100 litres) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials.

b.6. Plasma arc equipment, and specially designed waste supply and material handling systems, with continuous flow capacities for the disposal of toxic chemicals of 0.05 m³/hour (50 litres/hour) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials.

(7) Entry (vii) and (viii) on list of materials encompassed by the term “corrosion resistant”: (vii) nickel or alloys with more than 40 +/- 2 percent nickel by weight (some examples: Alloy 400, AMS 4675, ASME SB 164-B, ASTM B-127, DIN2.4375, EN60, FM60, IN60, Hastelloy, Monel, K500, UNS NO4400, Inconel 600, Colmonoy Nr.6); (viii) alloys with more than 25 +/- 2 percent nickel and 20 +/- 2 percent chromium and/or copper by weight (some examples: Alloy 825, Cunifer 30Cr, EniCu-7, IN 732 X, Inconel 800, Monel 67, Monel WE 187, Nicrofer 3033, UNS C71900, 904L, and CP40).

(8) C.10.4.11: Quantities of autoinjectors that exceed the established consumption rate.

(9) C.l0.4.2: Corrosion resistant multiple-seal, canned drive, magnetic drive, bellows or diaphragm pumps, or progressive cavity tubing pumps (including peristaltic or roller pumps in which only the elastometric tubing is corrosion resistant) with manufacturer’s specified maximum flow rate of 0.01 m³ per minute or greater under standard temperature (293 K) and standard pressure (101.30 kP) conditions.

Corrosion resistant vacuum pumps with manufacturer’s specified maximum flow rate greater than 0.08 m³ per minute under standard temperature (293 K) and pressure (101.30 kP) conditions and the following components:

Impellers

Casings

(10) C.10.4.4: Corrosion resistant valves with a smallest inner diameter of 12.5 mm or more and the following components:

Valve wetted parts

Biological Section:

(1) 12: Quantities of Ciprofloxacin, Doxycycline, Gentamycin, Streptomycin that exceed the established consumption rates.

(2) 2.5: Sterilizing equipment designed to sterilize infectious material, with an internal volume equal to 1.0 m³ or greater and the following components:

Doors

Door Seals

(3) 3.3: Orbital or reciprocal shakers with a total flask capacity greater than 25 litres, designed for use with biological material.

Shaking incubators with a total flask capacity greater than 25 litres, designed for use with biological material.

(4) 5: Quantities of formulated powdered growth media or cell culture media that exceed the established humanitarian use levels.

Quantities of formulated concentrated liquid growth media or cell culture media that exceed the established consumption rates.

Microbial grade yeast extract.

Cell culture grade fetal bovine serum.

(5) 4.1: Centrifugal separators (or decantors) designed for use with biological material capable of continuous operation at a flow rate of 20 litres per hour or greater and specially designed rotors therefor.

(6) 4.2: Batch centrifuges with a rotor capacity of 10 litres or greater, designed for use with biological agents.

(7) 11: Equipment for the microencapsulation of live microorganisms and toxins in the range of 1-15 micron particle size, to include interfacial polycondensors and phase separators, and materials such as lactic acid-glycolic acid copolymer, polyethylene glycol 6000, liposome materials such as phosphatidyl choline and hydrogels such as polyvinylalcohol and polyhydroxyethylmethacrylate, and agarose gel microspheres.

(8) 14: Filter presses and drum dryers capable of use with biological material.

(9) 13: Materials such as ion-exchange resins, gel filtration resins for column chromatography, and affinity chromatography resins used for the separation or purification of toxins.

(10) 1.2.14: Hantaviruses; 1.2.53: Lumpy Skin Disease virus.

(11) 7.2: Aerosol disseminators (other than aircraft sprayers or foggers), capable of dispersing aerosols with an ultimate mean size of 15 microns or less at a flow rate exceeding 1 litre of liquid suspension per minute or 10 grams of dry material per minute and the following components:

Spray tanks

Certified pumps Spray nozzles

Note: This entry excludes dry powder fire extinguishers.

Missile Section:

(1) 2.1: Rocket motor cases and production equipment therefor including interior lining, insulation and nozzles, and the technology, the production facilities and production equipment therefor to include computer controlled welding machines, non-destructive testing (NDT) equipment capable of using ultrasonic or X-ray to inspect motor case/engine welds; engines, including devices to regulate combustion, and components therefor.

(2) 8.3.1.2: Theodolites with an accuracy of 15 arc seconds or greater accuracy.

(3) 4.2.3: (a) Fluid energy mills usable for grinding or milling ammonium perchlorate, RDX or HMX and ammonium perchlorate hammer and pin mills and the following components:

Casings

Hammer/Anvils

(b) Equipment capable of sizing the resulting particles to below 400 microns.

(4) 5.2, 5.3.1.a and 5.4.a: Modify missile entries to delete the phrase “designed for use in inertial navigation systems or in guidance systems of all types”.

(5) 9.1.3: Test benches/stands capable of handling solid or liquid propellant rockets or rocket motors of more than 10 kN (2,248 lbs) of thrust, or capable of measuring one or more of the three axial thrust components along with spare parts, equipment and associated components (e.g. load cells, test sensors).

9.1.3.1: Load cells capable of measuring 8 kN (2,000 lbs) or greater.

9.1.3.2: Pressure transducers capable of measuring 2750 kPa (400 psi) or greater.

Conventional Section:

(1) 7.B.4: Global Navigation Satellite System (GNSS) jammers, GNSS-band signal generators, GNSS waveform/code simulators or GNSS receiver test equipment.

(2) 9.A.13.a: Low-bed trailers/loaders (height of 1.2 m or less) with a payload capacity of 20 MT or greater; bed width of 2.0 metres or more, including those vehicles with any extenders fully deployed; kingpin of 2.5 inches or greater; 3 or more axles; and tyre size of 1,200 x 20 or greater. Tractor or cab may or may not be attached.

(3) 5.A.l.b.7: b. Telecommunications transmission equipment and systems, and specially designed components and accessories therefor, having any of the following characteristics, functions or features:

7. Being radio equipment employing “time modulated ultra-wideband” techniques, having user programmable channelizing or scrambling codes.

5.A.2.a.: Systems, equipment, application specific “electronic assemblies”, modules and integrated circuits for information security, as follows, and other specially designed computer components therefor:

5.A.2.a.9: Designed or modified to use cryptographic techniques to generate channelizing or scrambling codes for “time modulated ultra-wideband” systems.

(4) 7.A.3: Inertial Navigation Systems and inertial equipment and components designed therefor:

a. Inertial navigation systems (gimballed or strapdown) and in inertial equipment designed for “aircraft”, land vehicle or “spacecraft” for attitude, guidance or control, having any of the following characteristics, and components designed therefor:

a.l. (Renumbering of current GRL entry 7.A.3.a.)

a.2. (Renumbering of current GRL entry 7.A.3.b.)

b. Hybrid Inertial Navigation Systems embedded with Global Navigation Satellite System(s) (GNSS) or with “Data-based referenced Navigation” (“DBRN”) System(s) for attitude, guidance or control, subsequent to normal alignment, having an INS navigation position accuracy, after loss of GNSS or “DBRN” for a period of up to 4 minutes, of less (better) than 10 metres Circular Error Probable (CEP).

(5) 5.A.l.b.8: Radio Intercept/Direction Finding (DF) Equipment/Systems.

(6) 5.A.l.b.7: Being broadcast transmitter (e.g. for radio or television) equipment operating in the .5-500 MHz (MF to UHF broadcast bands) with output power levels above 1 kW (Root-Mean-Square (RMS)).

(7) 1.A.6: Carbon Nanotube Materials; I.B.4: Scanning Probe Microscope equipment or systems; I.E.3: Carbon Nanotube Technology.

(8) 7.A.8: Full-Motion Flight Simulators/Training Systems for civilian transport aircraft.

(9) 9.A.13.b and c: Trucks with any military attributes (e.g., armour plating, electromagnetic pulse hardened, independent steering, Global Navigation Satellite Systems (GNSS), Global Navigation Satellite System Jammers and/or Night Vision Systems) or trucks with any of the following attributes: all-wheel drive capability, payload of 20 tons or greater, reinforced chassis, 370 or more engine horsepower, central tyre inflation, run flat capability and/or semi-pneumatic tyres, or independent levelling/stabilization. Truck chassis equipped with hydraulic lift systems over 8 tonnes or capable of attachments such as hoists, cranes, drills, and oil well workover capabilities would be covered as items for review.

(9) A.13.c: Tyres with equal to or greater than 16 ply rating or 10.00 x 20 tyres with non-directional, cross-country (NDCC) tread.

(9) B.l1: Moulds designed for the production of the tyres identified in 9.A.13.c.

(10) 3.E.3.g: Other “technology” for the “development” or “production” of:

g. Electronic vacuum tubes operating at frequencies of 31 GHz or higher.

(11) 8.A.l.j: Fast/Workboats, of any construction, with length overall (LOA) in excess of 15 metres capable of speed in excess of 20 knots when laden with rated payload in excess of 1.5 tons or,

Fast/Workboats, of any construction, with length overall (LOA) in excess of 15 metres capable of speed in excess of 20 knots and equipped with corrosion-resistant firefighting water pumps and corrosion resistant nozzles, or

Fast/Workboats, of any construction, with length overall (LOA) in excess of 15 metres capable of speed in excess of 20 knots and equipped with or capable of being equipped with (defined as free or reinforced deck space equal to or greater than 2 metres square or 4 square metres) a crane or cranes with load capacity of one or more metric tons.

(12) 6.A.8: RADAR: ... Note: ... 6.A.8 does not require review of: ... d. Meteorological (weather) Radar.

Delete sub-item “d” from the above-referenced exclusion note.

6.A.8.a: All airborne radar equipment and specially designed components therefor, not including radars specially designed for meteorological use ...”.

Delete “... radars specially designed for meteorological use ...”.

Note: 6.A.8.k does not require review of LIDAR equipment specially designed for surveying or meteorological observation.

Delete “... or meteorological observation”.

6.A.9: Equipment or systems, and components designed or adapted therefor, for meteorological observation, modelling and simulation, and/or forecasting.

6.B.9: Test, inspection, and “production” equipment for equipment, systems, and components adapted therefor, for which review is required under 6.A.9.

6.D.4 “Software” for meteorological use.

6.D.4.a: “Software” for the “development”, “production”, or “use” of equipment or systems requiring review under 6.A.9 or 6.B.9.

6.D.4.b: “Software” designed or adapted for meteorological modelling or simulation.

6.E.4: “Technology” according to the General Technology Note for the “use” of items for which review is required by 6.A.9, 6.B.9 or 6.D.4.

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Produced for media and public information – not an official United Nations Document
For further information please contact Mr. Ian Steele in the Office of the Iraq Programme. email: steelei@un.org

Information for Companies and Delegations		Annex A to resolution 1454 (2002) ADJUSTMENTS TO THE GOODS REVIEW LIST (GRL) Chemical Section: (1) C.l.0.4.1.0: Quantities of Atropine in doses greater than 0.6 mg/ml, Pralidoxime, Pyridostigmine and their respective salts, medical solutions of Sodium Nitrite, Sodium Thiosulfate that exceed the established consumption rates. (2) A.52: Any inorganic phosphide that exceeds established consumption rates. Note: Quantities of phosphides utilized with food grain shipments do not require review provided the amounts do not exceed 20 g of phosphide per metric tonne of grain. (3) A.02, A.06, A.07, A.08, B.0l, B.02, B.03, B.08, B.l0, B.11, B.12: Remove n=1-3 restriction on various chemical entries. Note: For List B chemicals: Where n=1-3, the chemical shall be considered prohibited. Where n>3, the chemical will be referred for review (4) 1.A.4.d: Quantities of activated carbon, that have been tested and certified effective for chemical weapons agent absorption, that exceed the established consumption rates. (5) A.53: Quantities of organophosphate pesticides that exceed established consumption rates. (6) C.l0.4.6: Equipment designed for the disposal of toxic chemicals as follows: (a) Incineration equipment with an average combustion chamber temperature of over 1,273 K (1,000 C) or catalytic incineration equipment with an average combustion chamber temperature of over 623 K (350 C); (b) Equipment utilizing disposal technologies other than incineration equipment in (a) to detoxify toxic chemicals including but not limited to liquid neutralization, gas phase chemical reduction, supercritical water oxidation, direct chemical oxidation, solvated electron, and plasma arc processes. b.l. Liquid neutralization equipment, and specially designed waste supply and material handling systems, with reactor volumes of 0.100 m³ (100 litres) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials. b.2. Gas phase chemical reduction equipment, and specially designed waste supply and material handling systems, with continuous flow capacities for the disposal of toxic chemicals of 0.05 m³/hr (50 litres/hour) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials. b.3. Supercritical water oxidation equipment, and specially designed waste supply and material handling systems, with reactor volumes of 0.05 m³ (50 litres) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials. b.4. Direct chemical oxidation equipment, and specially designed waste supply and material handling systems, with reactor volumes of 0.100 m³ (100 litres) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials. b.5. Solvated electron equipment, and specially designed waste supply and material handling systems, with reactor volumes of 0.100 m³ (100 litres) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials. b.6. Plasma arc equipment, and specially designed waste supply and material handling systems, with continuous flow capacities for the disposal of toxic chemicals of 0.05 m³/hour (50 litres/hour) or greater, in which all surfaces that come into direct contact with the toxic chemicals are made from corrosion resistant materials. (7) Entry (vii) and (viii) on list of materials encompassed by the term “corrosion resistant”: (vii) nickel or alloys with more than 40 +/- 2 percent nickel by weight (some examples: Alloy 400, AMS 4675, ASME SB 164-B, ASTM B-127, DIN2.4375, EN60, FM60, IN60, Hastelloy, Monel, K500, UNS NO4400, Inconel 600, Colmonoy Nr.6); (viii) alloys with more than 25 +/- 2 percent nickel and 20 +/- 2 percent chromium and/or copper by weight (some examples: Alloy 825, Cunifer 30Cr, EniCu-7, IN 732 X, Inconel 800, Monel 67, Monel WE 187, Nicrofer 3033, UNS C71900, 904L, and CP40). (8) C.10.4.11: Quantities of autoinjectors that exceed the established consumption rate. (9) C.l0.4.2: Corrosion resistant multiple-seal, canned drive, magnetic drive, bellows or diaphragm pumps, or progressive cavity tubing pumps (including peristaltic or roller pumps in which only the elastometric tubing is corrosion resistant) with manufacturer’s specified maximum flow rate of 0.01 m³ per minute or greater under standard temperature (293 K) and standard pressure (101.30 kP) conditions. Corrosion resistant vacuum pumps with manufacturer’s specified maximum flow rate greater than 0.08 m³ per minute under standard temperature (293 K) and pressure (101.30 kP) conditions and the following components: Impellers Casings (10) C.10.4.4: Corrosion resistant valves with a smallest inner diameter of 12.5 mm or more and the following components: Valve wetted parts Biological Section: (1) 12: Quantities of Ciprofloxacin, Doxycycline, Gentamycin, Streptomycin that exceed the established consumption rates. (2) 2.5: Sterilizing equipment designed to sterilize infectious material, with an internal volume equal to 1.0 m³ or greater and the following components: Doors Door Seals (3) 3.3: Orbital or reciprocal shakers with a total flask capacity greater than 25 litres, designed for use with biological material. Shaking incubators with a total flask capacity greater than 25 litres, designed for use with biological material. (4) 5: Quantities of formulated powdered growth media or cell culture media that exceed the established humanitarian use levels. Quantities of formulated concentrated liquid growth media or cell culture media that exceed the established consumption rates. Microbial grade yeast extract. Cell culture grade fetal bovine serum. (5) 4.1: Centrifugal separators (or decantors) designed for use with biological material capable of continuous operation at a flow rate of 20 litres per hour or greater and specially designed rotors therefor. (6) 4.2: Batch centrifuges with a rotor capacity of 10 litres or greater, designed for use with biological agents. (7) 11: Equipment for the microencapsulation of live microorganisms and toxins in the range of 1-15 micron particle size, to include interfacial polycondensors and phase separators, and materials such as lactic acid-glycolic acid copolymer, polyethylene glycol 6000, liposome materials such as phosphatidyl choline and hydrogels such as polyvinylalcohol and polyhydroxyethylmethacrylate, and agarose gel microspheres. (8) 14: Filter presses and drum dryers capable of use with biological material. (9) 13: Materials such as ion-exchange resins, gel filtration resins for column chromatography, and affinity chromatography resins used for the separation or purification of toxins. (10) 1.2.14: Hantaviruses; 1.2.53: Lumpy Skin Disease virus. (11) 7.2: Aerosol disseminators (other than aircraft sprayers or foggers), capable of dispersing aerosols with an ultimate mean size of 15 microns or less at a flow rate exceeding 1 litre of liquid suspension per minute or 10 grams of dry material per minute and the following components: Spray tanks Certified pumps Spray nozzles Note: This entry excludes dry powder fire extinguishers. Missile Section: (1) 2.1: Rocket motor cases and production equipment therefor including interior lining, insulation and nozzles, and the technology, the production facilities and production equipment therefor to include computer controlled welding machines, non-destructive testing (NDT) equipment capable of using ultrasonic or X-ray to inspect motor case/engine welds; engines, including devices to regulate combustion, and components therefor. (2) 8.3.1.2: Theodolites with an accuracy of 15 arc seconds or greater accuracy. (3) 4.2.3: (a) Fluid energy mills usable for grinding or milling ammonium perchlorate, RDX or HMX and ammonium perchlorate hammer and pin mills and the following components: Casings Hammer/Anvils (b) Equipment capable of sizing the resulting particles to below 400 microns. (4) 5.2, 5.3.1.a and 5.4.a: Modify missile entries to delete the phrase “designed for use in inertial navigation systems or in guidance systems of all types”. (5) 9.1.3: Test benches/stands capable of handling solid or liquid propellant rockets or rocket motors of more than 10 kN (2,248 lbs) of thrust, or capable of measuring one or more of the three axial thrust components along with spare parts, equipment and associated components (e.g. load cells, test sensors). 9.1.3.1: Load cells capable of measuring 8 kN (2,000 lbs) or greater. 9.1.3.2: Pressure transducers capable of measuring 2750 kPa (400 psi) or greater. Conventional Section: (1) 7.B.4: Global Navigation Satellite System (GNSS) jammers, GNSS-band signal generators, GNSS waveform/code simulators or GNSS receiver test equipment. (2) 9.A.13.a: Low-bed trailers/loaders (height of 1.2 m or less) with a payload capacity of 20 MT or greater; bed width of 2.0 metres or more, including those vehicles with any extenders fully deployed; kingpin of 2.5 inches or greater; 3 or more axles; and tyre size of 1,200 x 20 or greater. Tractor or cab may or may not be attached. (3) 5.A.l.b.7: b. Telecommunications transmission equipment and systems, and specially designed components and accessories therefor, having any of the following characteristics, functions or features: 7. Being radio equipment employing “time modulated ultra-wideband” techniques, having user programmable channelizing or scrambling codes. 5.A.2.a.: Systems, equipment, application specific “electronic assemblies”, modules and integrated circuits for information security, as follows, and other specially designed computer components therefor: 5.A.2.a.9: Designed or modified to use cryptographic techniques to generate channelizing or scrambling codes for “time modulated ultra-wideband” systems. (4) 7.A.3: Inertial Navigation Systems and inertial equipment and components designed therefor: a. Inertial navigation systems (gimballed or strapdown) and in inertial equipment designed for “aircraft”, land vehicle or “spacecraft” for attitude, guidance or control, having any of the following characteristics, and components designed therefor: a.l. (Renumbering of current GRL entry 7.A.3.a.) a.2. (Renumbering of current GRL entry 7.A.3.b.) b. Hybrid Inertial Navigation Systems embedded with Global Navigation Satellite System(s) (GNSS) or with “Data-based referenced Navigation” (“DBRN”) System(s) for attitude, guidance or control, subsequent to normal alignment, having an INS navigation position accuracy, after loss of GNSS or “DBRN” for a period of up to 4 minutes, of less (better) than 10 metres Circular Error Probable (CEP). (5) 5.A.l.b.8: Radio Intercept/Direction Finding (DF) Equipment/Systems. (6) 5.A.l.b.7: Being broadcast transmitter (e.g. for radio or television) equipment operating in the .5-500 MHz (MF to UHF broadcast bands) with output power levels above 1 kW (Root-Mean-Square (RMS)). (7) 1.A.6: Carbon Nanotube Materials; I.B.4: Scanning Probe Microscope equipment or systems; I.E.3: Carbon Nanotube Technology. (8) 7.A.8: Full-Motion Flight Simulators/Training Systems for civilian transport aircraft. (9) 9.A.13.b and c: Trucks with any military attributes (e.g., armour plating, electromagnetic pulse hardened, independent steering, Global Navigation Satellite Systems (GNSS), Global Navigation Satellite System Jammers and/or Night Vision Systems) or trucks with any of the following attributes: all-wheel drive capability, payload of 20 tons or greater, reinforced chassis, 370 or more engine horsepower, central tyre inflation, run flat capability and/or semi-pneumatic tyres, or independent levelling/stabilization. Truck chassis equipped with hydraulic lift systems over 8 tonnes or capable of attachments such as hoists, cranes, drills, and oil well workover capabilities would be covered as items for review. (9) A.13.c: Tyres with equal to or greater than 16 ply rating or 10.00 x 20 tyres with non-directional, cross-country (NDCC) tread. (9) B.l1: Moulds designed for the production of the tyres identified in 9.A.13.c. (10) 3.E.3.g: Other “technology” for the “development” or “production” of: g. Electronic vacuum tubes operating at frequencies of 31 GHz or higher. (11) 8.A.l.j: Fast/Workboats, of any construction, with length overall (LOA) in excess of 15 metres capable of speed in excess of 20 knots when laden with rated payload in excess of 1.5 tons or, Fast/Workboats, of any construction, with length overall (LOA) in excess of 15 metres capable of speed in excess of 20 knots and equipped with corrosion-resistant firefighting water pumps and corrosion resistant nozzles, or Fast/Workboats, of any construction, with length overall (LOA) in excess of 15 metres capable of speed in excess of 20 knots and equipped with or capable of being equipped with (defined as free or reinforced deck space equal to or greater than 2 metres square or 4 square metres) a crane or cranes with load capacity of one or more metric tons. (12) 6.A.8: RADAR: ... Note: ... 6.A.8 does not require review of: ... d. Meteorological (weather) Radar. Delete sub-item “d” from the above-referenced exclusion note. 6.A.8.a: All airborne radar equipment and specially designed components therefor, not including radars specially designed for meteorological use ...”. Delete “... radars specially designed for meteorological use ...”. Note: 6.A.8.k does not require review of LIDAR equipment specially designed for surveying or meteorological observation. Delete “... or meteorological observation”. 6.A.9: Equipment or systems, and components designed or adapted therefor, for meteorological observation, modelling and simulation, and/or forecasting. 6.B.9: Test, inspection, and “production” equipment for equipment, systems, and components adapted therefor, for which review is required under 6.A.9. 6.D.4 “Software” for meteorological use. 6.D.4.a: “Software” for the “development”, “production”, or “use” of equipment or systems requiring review under 6.A.9 or 6.B.9. 6.D.4.b: “Software” designed or adapted for meteorological modelling or simulation. 6.E.4: “Technology” according to the General Technology Note for the “use” of items for which review is required by 6.A.9, 6.B.9 or 6.D.4.
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