JP54 / JET A1 : RUSSIAN ORIGIN First lift : 1,000,000 bbls - 2,000,000 bbls Contract QTY : up to 5,000,000 blls Price : NWE PLATTS MINUS $6/$8 FOB : ROTTERDAM / FUJAIRAH PORT/ HOUSTON COMMISSION : 50% SELLER SIDE CLOSED / 50% BUYER SIDE OPEN
Aviation Jet Fuel is a type of aviation fuel designed for use in aircraft powered by gas-turbine engines. It is colourless to straw coloured in appearance. The most commonly used fuels for commercial aviation are Jet A and Jet A1, which are produced to a standardised international specification. The only other jet fuel commonly used in civilian turbine-engine powered aviation is Jet B, which is used for its enhanced cold-weather performance. Jet fuel is a mixture of a variety of hydrocarbons. Because the exact composition of jet fuel varies widely based on petroleum source, it is impossible to define jet fuel as a ratio of specific hydrocarbons. Jet fuel is therefore defined as a performance specification rather than a chemical compound. Aviation Jet Fuel is commonly referred to as JP54. However, this is the wrong terminology as there is no such grade of Jet Fuel. Jet A and Jet A1 are what refineries offer. Aviation Jet fuel Gas is what powers turbine aircraft engines. Worldwide, Jet Fuel is the most used low Sulphur content Kerosene. For instance, Colonial JP54 is similar to Jet A except the energy is 18.4 mj/Kg compared to the 42.8 MJ/kg of Jet A. Most importantly there is also a slight difference in additives. Aviation Jet Fuel B is used for its extremely cold weather performance. However, aviation Jet fuel Bs lighter composition makes it more dangerous to handle. For this reason, it is rarely used except in very cold climates. A blend of approximately 30% Kerosene and 70% Gasoline. Because of its very low freezing point (60 C (76 F), it is known as a wide cut fuel and has a low flash point as well. Aviation Jet Fuel B is primarily used in some military aircraft. In Canada, it is also used because of its freezing point. Aviation Kerosene standards are published as GOST10227-86. The standard consists of different properties. It separates paraffin and gasoline in the refinery. Military organisations around the world use a different classification system of JP (for Jet Propellant) numbers. Some are almost identical to their civilian counterparts and differ only by the amounts of a few additives. For instance, Jet A1 is similar to JP 8, Jet B is similar to JP 4. Military fuels are highly specialised products and are developed for very specific applications. Jet fuels are sometimes classified as kerosene or naphtha type. Kerosene type fuels include Jet A, Jet A1, JP 5 and JP 8. Naphthatype jet fuels, sometimes referred to as wide cut Jet Fuel, including Jet B and JP 4.
Aviation Jet Fuel is a type of aviation fuel designed for use in aircraft powered by gas-turbine engines. It is colourless to straw coloured in appearance. The most commonly used fuels for commercial aviation are Jet A and Jet A1, which are produced to a standardised international specification. The only other jet fuel commonly used in civilian turbine-engine powered aviation is Jet B, which is used for its enhanced cold-weather performance. Jet fuel is a mixture of a variety of hydrocarbons. Because the exact composition of jet fuel varies widely based on petroleum source, it is impossible to define jet fuel as a ratio of specific hydrocarbons. Jet fuel is therefore defined as a performance specification rather than a chemical compound. Aviation Jet Fuel is commonly referred to as JP54. However, this is the wrong terminology as there is no such grade of Jet Fuel. Jet A and Jet A1 are what refineries offer. Aviation Jet fuel Gas is what powers turbine aircraft engines. Worldwide, Jet Fuel is the most used low Sulphur content Kerosene. For instance, Colonial JP54 is similar to Jet A except the energy is 18.4 mj/Kg compared to the 42.8 MJ/kg of Jet A. Most importantly there is also a slight difference in additives. Aviation Jet Fuel B is used for its extremely cold weather performance. However, aviation Jet fuel Bs lighter composition makes it more dangerous to handle. For this reason, it is rarely used except in very cold climates. A blend of approximately 30% Kerosene and 70% Gasoline. Because of its very low freezing point (60 C (76 F), it is known as a wide cut fuel and has a low flash point as well. Aviation Jet Fuel B is primarily used in some military aircraft. In Canada, it is also used because of its freezing point. Aviation Kerosene standards are published as GOST10227-86. The standard consists of different properties. It separates paraffin and gasoline in the refinery. Military organisations around the world use a different classification system of JP (for Jet Propellant) numbers. Some are almost identical to their civilian counterparts and differ only by the amounts of a few additives. For instance, Jet A1 is similar to JP 8, Jet B is similar to JP 4. Military fuels are highly specialised products and are developed for very specific applications. Jet fuels are sometimes classified as kerosene or naphtha type. Kerosene type fuels include Jet A, Jet A1, JP 5 and JP 8. Naphthatype jet fuels, sometimes referred to as wide cut Jet Fuel, including Jet B and JP 4.
A1, Jp54 Aviation Kerosene
We are a direct mandate to reputable refineries in Qatar, Kazakhstan, USA. for the supply of petroleum and gas products. We are a company that has brought ingenious buyers to refineries, transacting with a standard specification and international trading procedures. At this moment we are glad to inform you that on behalf of our highly esteemed refineries, We are here to take away your stress of recent market. Kindly reach out to us for more enquiries; AVILABLE PRODUCTS: LIGHT CYCLE OIL, DIESEL EN590,EURO 6 (10PPM), GAS OIL D2 L0, 2-62, VIRGIN FUEL OIL D6,AVIATION KEROSENE GRADE 54, JET FUEL A1, LPG - LIQUEFIED PETROLEUM GAS, LNG â??LIQUEFIED NATURAL GAS, MAZUT M100, CRUDE OIL REBCO, EAST SIBERIAN PACIFIC BASIN CRUDE OIL (ESPO), PETROLEUM COKE, GRANULAR UREA 46%.
Aviation fuel is a specialized type of petroleum-based fuel used to power aircraft. It is generally of a higher quality than fuels used in less critical applications, such as heating or road transport, and often contains additives to reduce the risk of icing or explosion due to high temperature, among other properties Russian Jet fuel, aviation turbine fuel (ATF), is a type of aviation fuel designed for use in aircraft powered by gas-turbine engines. It is colorless to straw-colored in appearance. Jet fuel is a mixture of a large number of different hydrocarbons. The range of their sizes (molecular weights or carbon numbers) is restricted by the requirements for the product, for example, the freezing point or smoke point. Kerosene-type jet fuel (including Jet fuel A and Jet A-1) has a carbon number distribution between about 8 and 16 (carbon atoms per molecule); wide-cut or naphtha-type jet fuel (including Jet B), between about 5 and 15. Both Jet fuel A and Jet A-1 have a flash point higher than 38 °C (100 °F), with an autoignition temperature of 210 °C (410 °F). Outside former communist areas, there are currently two main grades of turbine fuel in use in civil commercial aviation: Jet A-1 and Jet A, both are kerosine type fuels. There is another grade of jet fuel, Jet B which is a wide cut kerosine (a blend of gasoline and kerosine) but it is rarely used except in very cold climates. Russian JET A-1 Jet A-1 is a kerosine grade of fuel suitable for most turbine engined aircraft. It is produced to a stringent internationally agreed standard, has a flash point above 38°C (100°F) and a freeze point maximum of -47°C. It is widely available outside the U.S.A. Jet A-1 meets the requirements of British specification DEF STAN 91-91 (Jet A-1), (formerly DERD 2494 (AVTUR)), ASTM specification D1655 (Jet A-1) and IATA Guidance Material (Kerosine Type), NATO Code F-35. Russian JET A Jet A is a similar kerosine type of fuel, produced to an ASTM specification and normally only available in the U.S.A. It has the same flash point as Jet A-1 but a higher freeze point maximum (-40°C). It is supplied against the ASTM D1655 (Jet A) specification. Russian JP54 Russian JP54 is an abbreviation for â??Jet Propulsion, A1, Colonial Grade 54â?³. During the refining process only 15% of the crude oil is made up of JP54 the rest of the grade is used for different types of plastic. Developed by JP Morgan, Colonial grade JP54 was replaced by AVGAS also known as AVGAS100LL. Actually most jet fuel exported from Russia is â??JP54â?? or â??Colonial JP54â??. It is similar to â??Jet Aâ?? except the the Specific Energy is 18.4 mj/kg compared to that of 42.8 mj/kg of â??Jet Aâ??.
Dear Customer, We can provide you with several fuel products from 100% verified sources. Most are on FOB basis. Rotterdam, Houston, Corpus Cristi or other European ports. All procedures are 100% safe for buyer, no TSA, no prepayment required. We are located in Amsterdam in The Netherlands, we also specialize in business research, this prevents us from working with frauds.
FOB PROCEDURES - NON NEGOTIABLE: 1- Buyer sends ICPO to Seller on receipt of SCO including Buyers banking information, CP, Business Registration, Passport, and Buyers TSA as proof of Buyers Storage Availability. (24 hours) 2- Seller issues Commercial Invoice (CI) directly to Buyer. Buyer signs CI and returns to Seller for TSR with minimum 5 days leased. (72 hours) 3- Seller issues Conditional DTA letter to be signed by all parties including buyers Tank Farm. (Three signatures required: Seller, Buyer and Tank Farm Agent). (48 -72 hours) 4- Seller issues Final DTA, fresh SGS, TSR, and Title Documents to the Buyer. (48 72 hours) 5- Buyer conducts Dip Test in Sellers tank & injection commences to Buyers tank. (12 hours) 6- Within 24-48 hours Buyer makes 100% TT payment via MT103, Seller changes ownership title to Buyer. (24 -48 hours) 7- Seller issues 12 months contract to be signed with all parties including NCNDA/IMFPA. (36 72 hours) CIF PROCEDURES ARE AVAILABLE - PLEASE CONTACT US FOR CIF
FOB PROCEDURES - NON NEGOTIABLE: 1- Buyer sends ICPO to Seller on receipt of SCO including Buyers banking information, CP, Business Registration, Passport, and Buyers TSA as proof of Buyers Storage Availability. (24 hours) 2- Seller issues Commercial Invoice (CI) directly to Buyer. Buyer signs CI and returns to Seller for TSR with minimum 5 days leased. (72 hours) 3- Seller issues Conditional DTA letter to be signed by all parties including buyers Tank Farm. (Three signatures required: Seller, Buyer and Tank Farm Agent). (48 -72 hours) 4- Seller issues Final DTA, fresh SGS, TSR, and Title Documents to the Buyer. (48 72 hours) 5- Buyer conducts Dip Test in Sellers tank & injection commences to Buyers tank. (12 hours) 6- Within 24-48 hours Buyer makes 100% TT payment via MT103, Seller changes ownership title to Buyer. (24 -48 hours) 7- Seller issues 12 months contract to be signed with all parties including NCNDA/IMFPA. (36 72 hours) CIF PROCEDURES ARE AVAILABLE - PLEASE CONTACT US FOR CIF
Aviation Kerosene JP54 / JET A1
