Fluid Loss Control Additives

The CPI-1508 Series compressor lubricants are formulated using a polyalkylene glycol (PAG) base fluid combined with a high performance additive package. These lubricants are specifically formulated to give negligible dilution with hydrocarbon gases. These compressor lubricants feature excellent protection against hydrogen sulfide (H2S) in the gas stream. Corrosion protection, oxidative and thermal stability enable the use of these lubricants over a wide range of temperatures without varnish or deposit formation. The high viscosity index (VI) and negligible hydrocarbon dilution enables the CPI-1508 Series lubricants to operate over wide ranges of temperature and gas composition with small changes in viscosity compared to other types of lubricants. The CPI-1508 Series fluids are especially advantageous in compressors operating in harsh chemical environments, particularly sour gas (H2S present) applications, due to their robust formulation. Applications and Compressor Type Flooded rotary screw compressors Sour gas applications Heavy hydrocarbon gas stream applications Features and Benefits Hydrocarbon insoluble Negligible dilution due to hydrocarbons in operation Corrosion protection (H2S) Resistance against H2S corrosion Oxidatively stable Longer system life High viscosity index Small viscosity changes over wide temperature ranges

The CPI -4600 Series compressor lubricants are formulated using premium polyalphaolefi n (PAO) synthetic base fluid, coupled with a high performance additive package. These compressor lubricants feature excellent thermal and oxidation stability enabling them to operate over a wide range of temperatures without coking, deposit formation or corrosion. The lubricants have low volatility and exhibit excellent miscibility with hydrocarbon gas and good compatibility with mineral oil lubricants. The CPI -4600 Series are recommended for refrigeration services due to excellent low temperature properties. They are wax-free as they are synthetic. A low pour point prevents lubricants from congealing in refrigeration lines. High film strength provides lubricity even when diluted with refrigerant. Applications and Compressor Type Propylene Refrigeration Oil-flooded rotary screw compressors Liquid ring vacuum pumps Other applications requiring an oxidative and thermally resistant lubricant Features and Benefits Hydrocarbon miscibility Work well with hydrocarbon gas in industrial refrigeration systems Oxidatively stable Longer system life Low volatility Reduced maintenance, reduced top-up High viscosity index Wide temperature range of operation Excellent lubricity Increased efficiency, reduced cost of operation

Solest 170 is a formulated VG170 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 170 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 downtime 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 Soles 170, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest�® 170 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 170 is a formulated VG170 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 170 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 170, as a polyol ester has a controlled level of miscibility with HFC gases. Excellent Thermal Stability Sealed tube results (ASHRAE 97) indicate that Solest 170 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.

LOOMOIL Generally suggested for non-critical all loss lubrication systems of textile and other looms which do not require additive containing oil. APPLICATION Non-critical all loss lubrication systems of textile and other looms which do not require additive containing oil. BENEFITS They perform well both for boundary as well as full fluid lubrication conditions. They allow for good ageing resistance. They allow for good ageing resistance. With their good anti-rusting properties, they are good for use under a wide range of temperatures and stress.

What Is Thermal Oil? Thermal oils or thermal fluids are heat transfer mediums that are consumed to transfer thermal energy in those solicitations or methods where high temperatures are essential. One of its core applications is diffusing heat from the industrial burner boiler or industrial biomass boiler to the variant industrial procedures that involve heat. Operational Benefits Of Thermal Oil Thermal oil is a thermal fluid whose consumption ranges to a great digit of industrial sectors. Here are what we deliberate to be some wide-ranging benefits of using thermal oil: Modest and precise temperature control Very low maintenance price We avoid oxidization complications Rapid start-up and stop Very simple operation (Does not require certified operator) Does not involve water or chemical treatment, maintenance of steam purgatives and condensate lines No leakage costs Safer operation fewer safety essentials required Low freezing point No heat losses due to purgatives, no loss of condensate. Thermal Oil Applications Thermal oils as a thermal fluid are used in an extensive range of submissions, and industries where high temperatures are essential. Some of the key industries in which these thermal oil thermal transfer systems are utilized are the following: Chemical Industry Wood Industry Textile Industry Food Industry Plastic or Rubber Industry Marine Applications Gas and Petroleum Production Machining of Metals, Paper and Cardboard Construction Materials Laundry Industry