WO2015052558A1 - Compressor oil, and compressor oil additive composition - Google Patents

Compressor oil, and compressor oil additive composition Download PDF

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Publication number
WO2015052558A1
WO2015052558A1 PCT/IB2013/061018 IB2013061018W WO2015052558A1 WO 2015052558 A1 WO2015052558 A1 WO 2015052558A1 IB 2013061018 W IB2013061018 W IB 2013061018W WO 2015052558 A1 WO2015052558 A1 WO 2015052558A1
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Prior art keywords
composition
mixture
alkyl
compressor
sulphur
Prior art date
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PCT/IB2013/061018
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English (en)
French (fr)
Inventor
Anil Kumar JAISWAL
Chankya TRIPATHI
Sankar Bhadhavath
Ajay Kumar HARINARAIN
Deepak Saxena
Rajan Thomas MOOKKEN
Biswajit Basu
Ravinder Kumar Malhotra
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Indian Oil Corporation Limited
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Application filed by Indian Oil Corporation Limited filed Critical Indian Oil Corporation Limited
Publication of WO2015052558A1 publication Critical patent/WO2015052558A1/en

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    • C10MLUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
    • C10M161/00Lubricating compositions characterised by the additive being a mixture of a macromolecular compound and a non-macromolecular compound, each of these compounds being essential
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    • C10M169/00Lubricating compositions characterised by containing as components a mixture of at least two types of ingredient selected from base-materials, thickeners or additives, covered by the preceding groups, each of these compounds being essential
    • C10M169/04Mixtures of base-materials and additives
    • C10M169/044Mixtures of base-materials and additives the additives being a mixture of non-macromolecular and macromolecular compounds
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    • C10M2203/00Organic non-macromolecular hydrocarbon compounds and hydrocarbon fractions as ingredients in lubricant compositions
    • C10M2203/10Petroleum or coal fractions, e.g. tars, solvents, bitumen
    • C10M2203/1006Petroleum or coal fractions, e.g. tars, solvents, bitumen used as base material
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    • C10M2203/00Organic non-macromolecular hydrocarbon compounds and hydrocarbon fractions as ingredients in lubricant compositions
    • C10M2203/10Petroleum or coal fractions, e.g. tars, solvents, bitumen
    • C10M2203/102Aliphatic fractions
    • C10M2203/1025Aliphatic fractions used as base material
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    • C10M2205/00Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions
    • C10M2205/02Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions containing acyclic monomers
    • C10M2205/026Butene
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    • C10M2205/02Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions containing acyclic monomers
    • C10M2205/028Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions containing acyclic monomers containing aliphatic monomers having more than four carbon atoms
    • C10M2205/0285Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions containing acyclic monomers containing aliphatic monomers having more than four carbon atoms used as base material
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    • C10M2205/00Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions
    • C10M2205/22Alkylation reaction products with aromatic type compounds, e.g. Friedel-crafts
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    • C10M2207/02Hydroxy compounds
    • C10M2207/023Hydroxy compounds having hydroxy groups bound to carbon atoms of six-membered aromatic rings
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    • C10M2209/02Macromolecular compounds obtained by reactions only involving carbon-to-carbon unsaturated bonds
    • C10M2209/08Macromolecular compounds obtained by reactions only involving carbon-to-carbon unsaturated bonds containing monomers having an unsaturated radical bound to a carboxyl radical, e.g. acrylate type
    • C10M2209/084Acrylate; Methacrylate
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    • C10M2209/10Macromolecular compoundss obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds
    • C10M2209/103Polyethers, i.e. containing di- or higher polyoxyalkylene groups
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    • C10M2215/02Amines, e.g. polyalkylene polyamines; Quaternary amines
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    • C10M2215/02Amines, e.g. polyalkylene polyamines; Quaternary amines
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    • C10M2215/08Amides [having hydrocarbon substituents containing less than thirty carbon atoms]
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    • C10M2219/00Organic non-macromolecular compounds containing sulfur, selenium or tellurium as ingredients in lubricant compositions
    • C10M2219/06Thio-acids; Thiocyanates; Derivatives thereof
    • C10M2219/062Thio-acids; Thiocyanates; Derivatives thereof having carbon-to-sulfur double bonds
    • C10M2219/066Thiocarbamic type compounds
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    • C10M2219/10Heterocyclic compounds containing sulfur, selenium or tellurium compounds in the ring
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    • C10M2219/106Thiadiazoles
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Definitions

  • One of the important tasks of the compressor is to compress the process gas / air for various industrial applications.
  • screw or centrifugal air compressors are being useddepending upon the pressure and flow rate requirements.
  • a screw rotary compressor contains a housing including bore, bearings, low pressure end as inlet and high pressure end with high pressure as outlet.
  • An efficient screw compressor in general generates a pressure of about 5 to 30 bar.
  • the compressor oil in a rotary screw compressor acts as coolant for absorbing compression / frictional heat, seal the rotors, lubricate the moving parts and protect the overall compressor system from rust & corrosion.
  • Energy conservation is the concept used for formulating superior products. As some energy of prime mover in compressor is being used for driving the moving parts against friction, the use of superior lubricant with comparatively lower coefficient of friction may help in energy conservation. Based on this concept, the present work was undertaken in the authors' laboratory.
  • compressor delivers high pressure gas / airiherebv resulting to elevation in working temperature.
  • compressor oil is oxidized as it comes in contact of the hot metal surfaces / hot air or gasin a running compressor.
  • the main objective of the present invention is to develop a novel composition of compressor oil with superior energy efficiency and resistance to oxidation ensuring longer useful life in industrial equipments such as rotary screw air compressors.
  • a compressor lubricant composition providing energy savings and exhibiting excellent oxidation stability is provided, as well as a process for preparation of the lubricant composition.
  • the composition comprises: (i) from 68 to 99.999 wt % of an isomerized base oil or blend of isomerized base oils; (ii) 0.001 through 20 wt % of a blend of ashless additives, the ashless additives having a viscosity range at 40° C. of from 50 mm2/s to 60 mm2/s, a d, at 20° C. of from 0.95 through 1.05 g/cm3, a flash point of greater than 100° C.
  • COC solublized in mineral oil of greater than 5 wt %, sulfur content of from 4.8 wt % through 6.0 wt %, and phosphorus content of from 2.9 through 3.6 wt %; (iii) less than 1.0 wt % of a dithiocarbamate, wherein the Conradson carbon residue is less than or equal to 3.00.
  • the dithiocarbamate is added to the base oil blend as a top treatment.
  • a compressor lubricant composition providing energy savings and exhibiting excellent oxidation stability comprises (i) 80 to 99.999 wt.% of an isomerized base oil; and (ii) 0.001 -20 wt.% of at least an additive selected from an additive package, oxidation inhibitors, pour point depressants, metal deactivators, metal passivators, anti-foaming agents, friction modifiers, anti-wear agents, and mixtures thereof; wherein the isomerized base oil has consecutive nos. of carbon atoms, ⁇ 0.05 wt.% aromatics, a ratio of mois. withmonocycloparaffinic functionality to mo Is. withmulticyloparaffinic functionality greater than 2,
  • compressors employing the lubricant composition with isomerized base oil consumes at least 1 % less power than compressors employing the lubricant composition of the prior art.
  • Rotary screw compressor lubricants were manufactured from blends of 22-35 wt.% esters of trimethylolpropane or pentaerythritol with C4-18 fatty acids and 65-78 wt.% polyether polyols with a no. av. mol. wt. 700-2500.
  • Addn. of other commonly available components up to 10 wt.% based on ester and polyol) completed the formulations, which had better oxidation stability than compressor lubricants.
  • a composition containing polypropylene glycol [25322-69-4] (no, ay. mol. wt. 1200) 175, Stauffer ester No.
  • Lubricating oil composition suitable for the lubrication of compressors contains 80-90 wt.% of pentaerythritol ester and 10-20 wt.% of dipentaerythritol ester of C4-13-carboxylic acids.
  • a formulated compressor lubricant containing 95.98 wt.% of a mixture of polyol (85 wt.% pentaerythritol and 15 wt.% dipentaerythritol) esters provided superior lubrication to a com. diester-based lubricant.
  • Machinery such as compressors, hydraulic equipment or turbines, can be operated with increased energy efficiency, if it is running with a lubricant composition, containing an ester base oil together with an additive blend, the later one is in very low amounts, where by the additive blends comprises at least two different additives, selected (a) dithiophosphates, and (b) alkylated phosphorothionates.
  • the present invention provides a novel compressor oil additive composition
  • the additive composition comprises (a) a polyisobutylene based polymer, (b) a rust and oxidation inhibitor, (c) a friction modifier, and (d) a sulphur and phosphorus containing antiwear component.
  • the ratio of polyisobutylene based polymer : rust and oxidation inhibitor : friction modifier : sulphur and phosphorus containing antiwear is 2-40 : 4-24 : 1-22 : 2-30,
  • the present invention provides an energy efficient compressor oil composition.
  • the said compressor oil composition comprises (a) a polyisobutylene based polymer, (b) a rust and oxidation inhibitor, (c) a friction modifier, (d) a sulphur and phosphorus containing antiwear component, and (e) a mixture of severely refined base stocks, or mixture of severely hydro-processed iso-dewaxed base stock and alkylated naphthalene, or mixture of synthetic base and alkylated naphthalene or alkylated naphthalene base or mixtures thereof.
  • the amount of polyisobutylene based polymer is 0.10 to 2.0 percent by weight of the composition
  • the rust & oxidation inhibitor is 0.20 to 1.2 percent by weight of the composition
  • the friction modifier is 0.05 to 1.1 percent by weight of the composition
  • the sulphur and phosphorus containing antiwear component is 0, 10 to 1.50 percent by weight of the composition.
  • a novel energy efficient, cost effective air compressor oil composition has been developed after an exhaustive research work in the laboratory followed by field trial in a rotary screw air compressorunder the identical compressor test conditions.
  • the composition of the energy efficient compressor oil includes ashless additive system in combination of premium quality severely hydro treated / hydroprocessed /' isodewaxed base oils of API Group II, Group III and base oils of Group IV, Group V class or mixtures thereof.
  • the additive composition for use in compressor oil composition comprises of (a) a polyisobutylene based polymer, (b) a rast and oxidation inhibitor, (c) a friction modifier, and (d) a sulphur and phosphorus containing antiwear component.
  • the ratio of polyisobutylene based polymer : rust and oxidation inhibitor : friction modifier : sulphur and phosphorus containing antiwear is 2-40 : 4-24 : 1-22 : 2-30.
  • the compressor oil additive composition has been prepared by mixing the appropriate amount of chosen additives or additive systems in a beaker / container.
  • the additives combinations are further optimised in combination of selected hydrocarbon base oils to achieve desired performance in the laboratory tests.
  • compressor oil composition comprises of:
  • composition of the energy efficient compressor oil includes combination of premium quality base oils of API Group II, Group III and base oils of Group IV, Group V class, as defined in the API interchangeability guidelines, or mixtures thereof. These base oils are commercially available in the market.
  • the ashless rust & oxidation inhibited additive system are packages commercially available in the market.
  • the ashless rust & oxidation inhibited additive system contain combination of additives of alkyl naphthylamine, mixture of triazoles of N,N-bis (2ethylhexyl)-4-methyl-lH- benzotrizole-l-methylamine and N,N-bis(2-ethylhexyl)-5-methyl-lH-benzotriazole-l - methylamine, amine phosphate, acylsarkosinate, sterically hindered phenol, acid salt of 4- nonylphenoxy compounds, alkylated diphenylamines or mixture of aryl triazole alkyl amines, aryl amine, alkyl alkyleneoxycarboxylic amine or mixtures of sterically hindered phenol, alkylated di phenyl amines, mixture of derivatives of triazoles / thiadiazole
  • the ashless antiwear / extreme pressure component / additive are commercially available and can be from array of phosphates, carbamates, dithiophospates, amine phosphates, etc.
  • the ashless antiwear / extreme pressure additive can be alkyl dithiophosphate or dialkyidithiophosphate, where alkyl group can be from CI to C14.
  • the sulphur and phosphorus moieties can be in the ratio of approximately of 2: 1
  • the phosphates can be alkyl or aryl phosphates, where alkyl group can be having long chain length of CI to CI 8.
  • the ashless alkyl carbamates is ashless antiwear / extreme pressure additive and can have sulphur and nitrogen content in the ratio of 5: 1.
  • the ashless amine phosphate can be mixture of amine phosphates and having multifunctional performance with extreme pressure / antiwear and anti rust properties and phosphorus and nitrogen content can be approximately in the ratio of 2: 1.
  • the preferred range in the compressor oil composition is from 0.10 to 1.5 percent by weight.
  • the ashless surface active friction modifier additive is selected from array of boron containing, phosphorus containing, ester based, polymerised esters, etc.
  • the friction modifier can be of amide borated ester or mixture of high molecular weight phenolic antioxidants or alkyl/aryl phosphates, phosphites, phosphonates or polymer based natural / synthetic fatty acids and polyols, or mixture thereof.
  • the preferred range in the compressor oil composition is from 0.05 to 1 .1 percent by weight.
  • the polymer in the composition is polyisobutylene based polymer with average molecular weight from 1,000 to 5,00,000.
  • the preferred range of average molecular weight of said polymer can be 1 ,500 to 3,50,000.
  • the preferred range in the compressor oil composition is from 0, 10 to 2.0 percent by weight. It would be within the scope of the present invention to use any other suitable polymer such as those selected from array of polyacrylates and polymetharcylates or ethylene propylene co-polymer of average molecular weight of 1,000 to 3,50,000.
  • the compressor oil composition optionally contains foam inhibitors, which are selected from array of highly viscous organic polymer and can be of dimethyl polycyclohexane, polyacrylates, etc.
  • the preferred range in the compressor oil composition is from 0.005 to 0.10 percent by weight.
  • the compressor oil composition optionally contains demulsifier in sufficient amount to provide demulsification property.
  • the demulsifier is selected from array of condensed polymeric alcohols, esters of fatty acids, fatty alcohols alkoxylated with alkylene oxides, or mixtures thereof.
  • the preferred range in the compressor oil composition is from 0.001 to 0.05 percent by weight,
  • the compressor oil composition optionally comprises a sufficient amount of pour point depressant to provide desired pour point depression.
  • the pour point depressant is selected from array of poly methacrylates, polyacrylamides, olefin copolymer, etc.
  • the preferred molecular weight can be in the range of 2,500 to 3,50,000.
  • the preferred range in the compressor composition is from 0.01 to 1.0 percent by weight.
  • the chosen additives are mixed in selected base oils at an appropriate temperature such as an average blending temperature of 60 °C to 65 °C, so that mixture gets bright, clear and homogeneous.
  • the examples are listed in Table - 1A, Table - IB & Table - ! C and these examples were prepared by mixing the components in percentage by weight.
  • the base oils used in the examples are of API Group I, Group II, Group III, Group IV & Group V types. These base oils are commercially available in the market.
  • the array of commercially available additives& additive package were selected in various combinations to achieve best performance.
  • the ashless additives includes antiwear / extreme pressure additives, friction modifier, surface active dispersants, metal deactivator, rust & oxidation inhibitor additive system, corrosion inhibitor, demulsifier, defoament etc.
  • the candidate blends were prepared and tested for various physico-chemical tests including performance properties such as kinematic viscosity, total acid number, conradson carbon residue (CCR), Rotating Pressure Vessel Oxidation Test (RPVOT), Pneurop Oxidation Test (POT) and tribological tests.
  • performance properties such as kinematic viscosity, total acid number, conradson carbon residue (CCR), Rotating Pressure Vessel Oxidation Test (RPVOT), Pneurop Oxidation Test (POT) and tribological tests.
  • the referred formulae are suitable to use as compressor oil of different ISO viscosity grades.
  • the viscosity grade can be of ISO VG 10 to ISO VG 1500 as recommended by the compressor manufacturer.
  • the composition can be used in various compressor applications including reciprocating and screw air compressors.
  • Various physico-chemical & performance tests were conducted to assess the performance in laboratory and thereafter trial of promising candidate was carried out in a rotary screw air compressor in actual operating conditions.
  • the components used in the examples are as follows:
  • SN base oils are solvent neutral or solvent refined base oils (API Group I) and are commercially available.
  • Group II are commercially available API Group II base oils.
  • Group III are commercially available API Group III base oils.
  • Group IV are commercially available API Group IV base oils.
  • Group V are commercially available API Group V base oils.
  • Additive- 1 is polyisobutlyene based polymer of preferably having average molecular weight 2,500 to 2,50,000.
  • Additive-2 is commercially available rust & oxidation inhibitor additive package and can contain combination of aryl amine, alky! amine, alky! alkyleneoxycarboxylic amine, and mixtures of derivatives of aryl triazole.
  • Additive-3 is commercially available friction modifier, which is surface active boron containing mixture of amide ester.
  • Additive-4 is commercially available sulphur & phosphorus containing antiwear additive of ashless dithipohsphates of preferably alkyl chain length of CI to C 14 and can be having sulphur & phosphorus content in the ratio of 2: 1.
  • Additive-5 is commercially available demulsifier, which can be of alkoxylated fatty alcohols.
  • Additive-6 is commercially available ashless type defoamer, which can be organic polyacryfate polymer,
  • Additive-7 is commercially available rust & oxidation inhibited turbine oil package and can be combinations of alkylated diphenyl amines, alkyl naphthylamines, derivatives of triazoles, amine phosphates, sterically hindered phenol.
  • Additive-8 is commercially available ashless antiwear additive, which can be of aryl phosphates.
  • Additive-9 is commercially available polyalkyl methacrylate polymer, which can be preferably having average molecular weight of 1 ,000 to 2,50,000.
  • Additive- 10 is commercially available friction modifying agent, which can be mixture of high molecular weight antioxidants.
  • Additive 4 0.500 0.500 0.500 0.500 0.050 0.600 0.700
  • Example 13 to 18 Table 1C SRV, coefficient 0.11 0.12 0.12 0.115 0.115 0.12 of friction
  • the energy efficient air compressor oil (Composition of Example 3 of Table 1A) is evaluated against DIN 51506 VDL (VG 46) specifications.
  • genuine compressor oil (VG 46) available from one of the leading compressor manufacturer's OEMs has been chosen as reference oil for generating base line data.
  • high temperature oxidation tests such as Pneurop Oxidation Test (POT as per DIN 51352 Part 2), Rotating Pressure Vessel Oxidation test (RPVOT as per ASTM D 2272) and IP 280 oxidation tests were conducted on test oils,
  • Table - 2 provides the physico-chemical data on energy efficient (EE) compressor oil (VG 46) vis-a-vis reference oil (VG 46).
  • the kinematic viscosity as determined by ASTM D 445 in mm7s is in accordance with viscosity grade 46 and viscosity index is of 106.
  • the energy efficient lubricant composition has pour point as (-) 27°C which is indicative of its low temperature properties and its suitability for low temperature application.
  • the composition according to the present invention also has low foaming and air release value in comparison to reference oil.
  • the flash point as detemiined by ASTM D 92 is more than 200°C suggesting its suitability for higher discharge temperature application.
  • the composition is having excellent demulsibility characteristics allowing better water separation characteristics.
  • the proposed composition separates water in 15 minutes as measured according to ASTM D 1401.
  • the poor demulsibility of the compressor oil causes sludge, corrosion / rust formation, clogging of the filter, reduced lubricant performances and shortening of oils' life.
  • Performance of Test oils in High temperature Oxidation Tests Ageing characteristics in presence of iron (III) oxide as per Pneurop oxidation test (POT) is conducted at 200 °C for 24 hours to assess the carbon forming tendency and viscosity percentage change of aged oils under the specified test conditions as per DI N 5 352 Part 2.
  • the aged oils after POT test showed carbon residue formation of 0, 18 % wt and rise in kinematic viscosity @ 40 °C of 1.30% over the reference oil having carbon residue formation of 1.79 % wt and rise in kinematic viscosity @40 °C of 13.7 %, which is indicative of suitability of the energy efficient compressor oil in the extended running operation.
  • the compressor lubricant composition demonstrates excellent oxidation stability as measured according to ASTM D 2272 with a RPVOT life greater than the 1000 minutes indicating thereby superior oxidation life of the energy efficient compressor oil in comparison to the reference oil.
  • the TOP value (total oxidation product, % by mass) of energy efficient compressor oil is 0.076 in comparison to the 0.23 for the reference oil.
  • Table 2 Test data of Reference oil (VG 46) genuine oil from leading compressor OEM
  • weld load and wear scar dia done as per IP 239 & ASTM D 4172 test methods (Table-1A, I B, ! C).
  • Energy efficiency of the energy efficient compressor oil was assessed in the laboratory in SRV test rig. This machine is used to measure the coefficient of friction between oscillating ball on a flat disc in a sliding contact geometry. Reduction in coefficient of friction during the test ran was taken as criteria for energy saving potential. The higher is the reduction in the coefficient of friction, better will be the energy efficiency in the oil. In this screening test @ 200N, 50°C, 50 Hz, 1 mm for 1 hour, energy efficient oil provided reduction in coefficient of friction to the extent of 17 % approximately over the reference compressor oil.
  • the optical Hi I D apparatus was used to measure EHD film thickness by steel ball on glass disc and friction (traction) coefficient was measured under EHD regime by steel ball on steel disc.
  • the contact of steel ball, on glass disc is coated with silica spacer layer.
  • the load was kept 30N with variable rolling speed of 0 to 4 meter per second with the increment of speed of 100 mm per second for test duration of one hour.
  • the EHD film thickness of the energy efficient compressor oil was more or less similar, however traction coefficient was found comparatively lower than reference oil.
  • a compressor of a standard make used in industry was ran under constant duty cycle over a continuous 1000 hour period in a fixed loading cycle to unloading cycle ratio of 2: 1.
  • a loading cycle is when the compressor was compressing the air to the desired pressure
  • the unloading cycle is when the compressor was rotating without any compression in progress. This was achieved by continuous forced venting of the air being compressed.
  • the back to back study conducted each of test oil for the period of 1000 hours in the rotary screw air compressor under identical conditions.
  • the compressor was hooked with electronic energy meter to measure the energy consumption, hour meter to measure the total ranning hours.
  • the Fluke make energy analysis equipment was used for instantaneous energy consumption and traces were taken over 10 minute intervals with high speed data acquisition.
  • the compressor were ran with fixed ratio of loading & unloading cyclesby using constant air venting to enable one to one energy consumption in the identical operating conditions.
  • the ratio of loading & unloading cycles was kept in the ratio of 2 : 1 .
  • the sequence of evaluation was to run the EE compressor oil for 1000 hours and take the energy consumption, run the compressor with reference oil for 1000 hours and measure the energy consumption, run again the EE compressor oil for 1000 hours and take the energy consumption and run hack to back with reference oil for 1000 hours and take the energy consumption.
  • the average energy consumption was recorded for each of the oils. The instantaneous energy consumption at different point of time was also recorded.
  • the used oil samples were collected for checking the % change in kinematic viscosity, change in total acid number and generation of wear metals.

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CN108329978A (zh) * 2018-01-20 2018-07-27 盘锦北方沥青股份有限公司 一种聚醚螺杆空气压缩机油组合物及其制备方法
CN112111316A (zh) * 2020-09-07 2020-12-22 珠海格力节能环保制冷技术研究中心有限公司 冷冻机油、工作流体组合物及压缩机
CN112119141A (zh) * 2018-05-18 2020-12-22 国际壳牌研究有限公司 往复式压缩机油
CN113136257A (zh) * 2021-04-22 2021-07-20 中国石油化工股份有限公司 一种用于烃类气体合成型压缩机油的组合物及其制备方法
CN114133976A (zh) * 2020-09-03 2022-03-04 东莞市开普润滑科技有限公司 润滑油组合物
CN115386413A (zh) * 2022-09-19 2022-11-25 新乡市瑞丰新材料股份有限公司 一种长寿命螺杆型空压机油复合剂及其制备方法
CN116410807A (zh) * 2021-12-30 2023-07-11 中国石油天然气股份有限公司 一种离心式压缩机油添加剂、离心式压缩机油以及离心式压缩机
CN116438282A (zh) * 2020-11-18 2023-07-14 赢创运营有限公司 具有高粘度指数的压缩机油
CN114479989B (zh) * 2020-10-27 2023-11-10 中国石油化工股份有限公司 抗氧剂组合物及其制备方法和润滑油组合物

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CN108329978A (zh) * 2018-01-20 2018-07-27 盘锦北方沥青股份有限公司 一种聚醚螺杆空气压缩机油组合物及其制备方法
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CN112119141B (zh) * 2018-05-18 2022-09-30 国际壳牌研究有限公司 往复式压缩机油
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CN112111316A (zh) * 2020-09-07 2020-12-22 珠海格力节能环保制冷技术研究中心有限公司 冷冻机油、工作流体组合物及压缩机
CN114479989B (zh) * 2020-10-27 2023-11-10 中国石油化工股份有限公司 抗氧剂组合物及其制备方法和润滑油组合物
CN116438282A (zh) * 2020-11-18 2023-07-14 赢创运营有限公司 具有高粘度指数的压缩机油
CN113136257A (zh) * 2021-04-22 2021-07-20 中国石油化工股份有限公司 一种用于烃类气体合成型压缩机油的组合物及其制备方法
CN113136257B (zh) * 2021-04-22 2023-08-15 中国石油化工股份有限公司 一种用于烃类气体合成型压缩机油的组合物及其制备方法
CN116410807A (zh) * 2021-12-30 2023-07-11 中国石油天然气股份有限公司 一种离心式压缩机油添加剂、离心式压缩机油以及离心式压缩机
CN115386413A (zh) * 2022-09-19 2022-11-25 新乡市瑞丰新材料股份有限公司 一种长寿命螺杆型空压机油复合剂及其制备方法

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