Ingersoll Rand specializes in flare gas recovery systems with advanced liquid-ring compressors. These systems are made to help use fuel gas better and reduce the environmental effects of many industrial jobs.
Flare gas recovery (FGR) is a powerful way to capture flare gases and redirect them back into production workflows for reuse as fuel gas. This process helps to reduce routine flaring and emissions while saving operators long-term production costs.
Flare gas recovery compressors are a major part of this green process. They condense the gas and get it ready to be used once more.
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Overview Gas recovery inflatable device. The system includes vacuum and return system, purification system, compression system, condensing system, can be applied to various power supply companies, transmission and power generation engineering companies, power plants, high voltage transmission power stations, SF6 electrical switch manufacturing plants, etc. The department, as a Auxiliary equipment used by SF6 electrical products such as GCBP, GCBT, GIS, in installation, modulation, and overhaul. The above electrical products are used to recover, return, vacuum, gaseous, and liquid storage. The system can also be used as a device that evacuates and recover other expensive gases. Technical parameter Product recommendation model Size mm Weight kg Product Usage 12Q 4 40 1750 800 1550
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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.
Light Crude Oil: Crude oil is a naturally occurring, unrefined petroleum product composed of hydrocarbon deposits and other Organic materials. Distillates Include Naphtha, Light Kerosene and Heavy Kerosene, Gas Oil, MTO and Fuel Oil. Parameter Method Unit Result Appearance - Black Density :150C ASTM D-1298 Kg/L 0.830 Flash Point : ASTM D-93 OC 0 Water Content : ASTM D-95 %vol 0.5 Distillation : ASTM D-86 IBP ASTM D-86 OC 45 10% ASTM D-86 OC 75 20% ASTM D-86 OC 95 30% ASTM D-86 OC 125 40% ASTM D-86 OC 155 50% ASTM D-86 OC 170 60% ASTM D-86 OC 230 70% ASTM D-86 OC 300 75% ASTM D-86 OC 320 Remark: Cracked at 320OC. Total Recovery 75%, Residue 25%
"The CPI-1005 Series compressor lubricants are formulated using highly hydrocracked and is dewaxed mineral oil coupled with an additive package that is specifically designed to give superior performance in compressor systems. These compressor lubricants feature excellent protection against hydrogen sulfide (H2S) in the gas stream. Corrosion protection, low pour point, and excellent shear stability ensure that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. The CPI-1005 Series lubricants are especially advantageous in compressors operating with harsh chemical environments, particularly with sour gas (H2S present) applications, due to their robust formulation. Applications and Compressor Type Flooded rotary screw compressors Reciprocating compressors Sour gas applications Applications with harsh chemical environments Features and Benefits Corrosion protection (H2S) Resistance against H2S corrosion Low pour point Suitable for use in low temperature environments Excellent lubricity Increased efficiency, reduced cost of operation Shear stability Increased service life "
The CPI -1519 Series compressor lubricants are formulated using premium polyalkylene glycol (PAG), coupled with a high-performance additive package. The lubricants are specifically formulated to give negligible solubility or dilution in hydrocarbon gases These compressor lubricants feature excellent protection against hydrogen sulfide (H2S) within the gas stream. Corrosion protection, low pour point and excellent lubricity ensure that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. The CPI-1519 Series are specifically advantageous in high-temperature applications, particularly as the low volatility and negligible dilution with hydrocarbons means that there is significantly reduced lubricant in the gas stream, ensuring that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. Applications and Compressor Type Flooded rotary screw compressors Centrifugal compressors Liquid ring vacuum pumps Features and Benefits Hydrocarbon insoluble Insignifi cant dilution in operation Corrosion protection (H2S) Resistance against H2S corrosion Oxidatively stable Longer system life Extremely low volatility Reduced maintenance, reduced top-up Excellent lubricity Increased efficiency, reduced cost of operation
The CPI -1519 Series compressor lubricants are formulated using premium polyalkylene glycol (PAG), coupled with a high-performance additive package. The lubricants are specifically formulated to give negligible solubility or dilution in hydrocarbon gases These compressor lubricants feature excellent protection against hydrogen sulfide (H2S) within the gas stream. Corrosion protection, low pour point and excellent lubricity ensure that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service interval. The CPI-1519 Series are specifically advantageous in high-temperature applications, particularly as the low volatility and negligible dilution with hydrocarbons means that there is significantly reduced lubricant in the gas stream, ensuring that the use of these lubricants over a wide range of applications and systems will result in a long, trouble-free and uninterrupted service intervals. Applications and Compressor Type Flooded rotary screw compressors Centrifugal compressors Liquid ring vacuum pumps Features and Benefits Hydrocarbon insoluble Insignifi cant dilution in operation Corrosion protection (H2S) Resistance against H2S corrosion Oxidatively stable Longer system life Extremely low volatility Reduced maintenance, reduced top-up Excellent lubricity Increased efficiency, reduced cost of operation
