Automotive parts and engine oil..Shipping/ forwarding.
We are trading in - LPG (Liquefied Petroleum Gas) LPG (Liquefied Petroleum Gas) is predominantly propane and butanes, either segregated or in various ratios and mixtures of each product. LPG is a by-product of crude oil production (Associated Gas) and a by-product of natural gas production (Non Associated Gas). It is also a by-product of the refinery process, transported mainly in pressurised vessels. Associated and Non Associated LPG or NGL's (Natural Gas Liquids) are shipped via pipeline in large quantities where possible, for example in the US, and via refrigerated VLGC's (Very Large Gas Carriers) from, for example, the US Gulf Coast to Japan. As well as being a fundamental building block in the petrochemical process, LPG it also a convenient fuel used globally for domestic purposes; in the northern hemisphere, LPG is used for home heating, while in Africa it is used as a cooking gas. In some markets, LPG is also used as a fuel for cars (known as Autogas).
We are trading in - Liquefied Natural Gas (LNG) Liquefied Natural Gas (LNG) is natural gas, cooled to minus 161 C until it becomes a liquid. It is stored under atmospheric pressure and reduced in volume by the ratio of 1:600. As a liquid, natural gas is easier and less costly to transport, particularly where access to pipelines is not available. Once degasified at its destination, it serves the same purposes as natural gas, such as a consumer fuel for heating, cooking or electricity generation.
We are trading in - Bitumen 70 Grade Blown Bitumen 75/25 or Oxidized Bitumen or Blown Asphalt is produced by blowing hot air into the penetration bitumen. This action makes the bitumen more rubbery than its original formula and it becomes harder bitumen. This bitumen recovery the weight loss under heating. Due to low thermal sensitivity, the softening point is much higher than regular bitumen and the penetration index (PI) is higher than road construction bitumen (8>PI>2) due to the letter has a gel-like structure because of asphalt accumulation. Blown Bitumen 75-25 is Semi Solid grade of pure petroleum bitumen. Special physical properties of its grade can be used in different applications in the construction business. Blown Bitumen 75/25 is produced by the air-blowing of penetration grade bitumen. This is done at high temperatures, resulting in a material of a much higher penetration index. RAHA Bitumen 75/25 is based on petroleum bitumen which is made by blowing bitumen 60/70 by very hot air. The designation of the Blown Bitumen 75/25 refers to the midpoint of the softening point acceptance criteria. Our Bitumen partner Co. is also capable of producing other grades of Oxidized Bitumen according to the specifications of individual clients. Some of the major advantages of Oxidized Bitumen are that it is completely water resistant, highly flexible and durable. Further, it is chemically very stable. Oxidized bitumen is a very flexible compound that is not only chemically stable but also a very durable compound apart from being completely water resistant. Lastly, Oxidized Bitumen has some very prominent technical advantages that makes it a very sought after compound in various applications. Uses of Blown Bitumen 75/25 Blown Bitumen 75/25 is a solid or semi-black solid material and gradually liquid when heated. Oxidized Bitumen grades are blown or oxidized Asphalt â??s which are produced by passing air through soft bitumen under controlled temperature conditions. This process gives the bitumen more rubbery properties than penetration or hard grade bitumens and a variety of uses in industrial applications.
LNG, LPG, crude oil heavy and light oils, jet fuel.
Surveillance cameras, solar panels, agricultural product, chemicals, energy supplies.
Liquified Petroleum Gas (LPG) and transporting
Chicken, beef meat, pork, sugar, milk powder, PVC, plastic resins, d6, jp54, a1, mazut, hdpe, iron ore, used rails, steel billets.
We provide high-quality Liquefied Natural Gas (LNG) and Liquefied Petroleum Gas (LPG), known for their efficiency and cleaner combustion. Our reliable supply network guarantees a consistent and secure energy solution for diverse industries.
We offer premium-grade bitumen, essential for road construction and infrastructure projects. Our bitumen ensures durability and reliability, meeting international standards for quality and performance.
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
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
Solest 68 is a formulated ISO VG68 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 68 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Soles lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Rotary, Centrifugal, Scroll Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 68, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 68 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 220 is a formulated ISO VG220 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 220 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 220, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 220 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 220 is a formulated ISO VG220 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 220 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 220, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Soles 220 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 180 is a formulated VG180 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 180 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. This grade offers excellent resistance to dilution in HFC refrigerants. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPIs laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 180, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Soles 180 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 180 is a formulated VG180 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years service in the field. Designed to maximize lubrication in HFC systems, Solest 180 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminum surfaces for increased system life and improved efficiency. This grade offers excellent resistance to dilution in HFC refrigerants. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI's laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 180, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 180 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 120 is a formulated VG120 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years of service in the field. Designed to maximize lubrication in HFC systems, Solest 120 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminium surfaces for increased system life and improved efficiency. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI's laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 120, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 120 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
Solest 120 is a formulated VG120 synthetic polyol ester (POE) lubricant designed for commercial and industrial refrigeration and air conditioning compressors with over 25 years of service in the field. Designed to maximize lubrication in HFC systems, Solest 120 provides superior bearing protection with greater film strength than standard HFC lubricants. This product provides effective wear protection for steel and aluminum surfaces for increased system life and improved efficiency. Solest lubricants are designed for standard factory fill of air conditioning and industrial refrigeration equipment, as well as for OEM retrofitting operations. CPI's laboratory studies and OEM compressor bench tests have afforded a product line specifically designed to meet key system needs. Solest lubricants are not hazardous under 29 CFR 1910.1200. They provide improved properties over conventional mineral oils in all aspects, including viscosity index, flash and fire points and pour point. Applications and Compressor Type HFC, HCFC, HFO Refrigeration Reciprocating, Screw, Centrifugal Compressors Features and Benefits Thermally stable Longer system life Improved oil management Efficiency gains Corrosion protection Enhanced system reliability and reduced down-time Excellent bearing lubrication Longer compressor Life Optimized System performance Reduced operating costs Environmentally friendly Biodegradable Excellent lubricity Increased efficiency, reduced cost of operation Outstanding Miscibility The performance of an HFC system is optimized when the lubricant and refrigerant mix to form a single, clear phase. Miscibility lowers the viscosity of the lubricant carried through the system, so the lubricant can more efficiently return to the compressor. Mineral oils are not miscible with HFCs whereas Solest 120, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 120 provides excellent stability in the presence of HFC refrigerants. In addition to outstanding stability, this lubricant shows no adverse effects to metals and other materials of construction.
