CN102304410A

CN102304410A - High viscosity synthetic ester lubricant base stock blends

Info

Publication number: CN102304410A
Application number: CN2011102251551A
Authority: CN
Inventors: G·普西拉斯
Original assignee: Lubrizol Corp
Current assignee: Lubrizol Corp
Priority date: 2005-07-27
Filing date: 2006-07-27
Publication date: 2012-01-04
Also published as: WO2007014337A1; AU2006272507B2; AU2006272507A1; CA2615286C; BRPI0614172A2; US20080214418A1; EP1941010A1; CA2615286A1; BRPI0614172B1; CN101248164A

Abstract

Cross blends of synthetic ester base stocks are produced from high viscosity synthetic ester base stocks having a viscosity from about iso 120 to 140 and conventional synthetic ester base stocks of varying viscosities to form base stocks having viscosities from about iso 68 to iso 220. Lubricants formed from the cross blends have sufficient miscibility with HFC refrigeration fluids with minimal use of i-C9 carboxylic acids to form the ester.

Description

High viscosity synthetic ester lubricant base stock blends

The application is that application number is 200680027006.1, the applying date is on July 27th, 2006, denomination of invention is divided an application for the application of " high viscosity synthetic ester lubricant base stock blends ".

Background of invention

The present invention relates to synthetic polyol ester lubricant base stock, relate more specifically to be applicable to cross-blends in compressor and the refrigeration system, high viscosity synthetic ester lubricant base stock and conventional polyol ester basis oil plant.

Be well known that, before the chlorofluorocarbon as the propelling agent in the aerosol with as refrigerating fulid, but since they the disadvantageous effect of earth's ozone layer is not re-used.The effort of eliminating the use of chlorofluorocarbon has caused the exploitation of alternative fluids (they are height or complete fluorizated hydrocarbon).

Available refrigerating fulid generally includes the lubricant of minor amount.Usually, refrigerating fulid comprises about 5 to 15 or the lubricant of 20 weight parts, and surplus is a fluorocarbon.In chlorofluorocarbon systems, lubricant is generally and the abundant miscible mineral oil of chlorofluorocarbon.But; This series lubricant agent and height or complete fluorizated hydrocarbon (for example 1; 1; 1; The 2-Tetrafluoroethane; Often be known as HFC-134a) and other free from chloride fluorocarbon unmixing; Aforementioned free from chloride fluorocarbon comprises the hydrogen fluorohydrocarbon (HFC) that has 1 to 3 carbon atom, preferably has 1 to 2 carbon atom; For example methylene fluoride (HFC-32), trifluoromethane (HFC-23), pentafluoride ethane (HFC-125), 1,1,2; 2-Tetrafluoroethane (HFC-134), 1; 1,1-Halothane (HFC-143a) and 1,1-C2H4F2 C2H4F2 (HFC-152a).

Although HFCs and mineral oil unmixing, some carboxylicesters of polyol is also referred to as polyol ester or POEs, with height or complete fluorizated fluid complete miscibility.The polyol ester lubricant is through some polyvalent alcohol, and for example tetramethylolmethane, neopentyl glycol and trimethylammonium propyl alcohol prepare with the condensation of the straight or branched monocarboxylic acid that contains about 4 to 10 carbon atoms.In order to improve compatibility, mixture of carboxylic acids generally includes the 3,5,5 Trimethylhexanoic acid (iso-C-9) of 30-85 mole %.But, when nearest limited the confession property of iso-C-9.This shortage of Iso-C-9 makes that using iso-C-9 to make polyol ester is difficulty and/or expensive.

Therefore, be desirable to provide based on the cross-blends of two or more oil base stock, viscosity be ISO68 to 220, with the miscible synthetic ester lubricant oil base stock of HFCs.This adulterant is bonded into oil base stock by height and conventional polyol ester basis oil plant constitutes; Said height is bonded into the condensation of oil base stock through amyl-based polyol and straight chain and branched-chain monocarboxylate and forms, and wherein in mixture of carboxylic acids, almost or does not fully use iso-C-9.Although this cross-blends is used iso-C-9 limitedly, also still miscible with HFCs, and economic oil base stock is provided when the supply of iso-C-9 is restricted.

Brief summary of the invention

The objective of the invention is in the carboxylic acid reaction mixture, seldom or not to use and make multiple and the miscible polyol ester lubricant of HFCs under the situation of iso-C-9.

Another object of the present invention provides the lubricant base stock that is used for air-conditioning and refrigeration system.

Another object of the present invention provides under the situation of limited use iso-C-9 carboxylic acid the method made from the economy of the fully miscible synthetic ester base plinth oil plant of HFC refrigeration agent.

Another object of the present invention provides under the situation of limited use iso-C-9 carboxylic acid and the abundant miscible synthetic ester base plinth oil plant of HCF refrigeration agent, and it shows excellent resistance to abrasion and has improved compressor efficiency.

According to the present invention, the suitable synthetic ester lubricant cross-blends of using with multiple HFC refrigerating fulid is provided.The applicant has been found that i) the indefinite conventional polyol ester basis oil plant of viscosity with ii) almost or the cross-blends of iso 120 to the 140 high sticking oil base stock that form without iso-C-9 fully provide miscible and show the sticking and low sticking polyol ester of the multiple height basis oil plant of excellent abrasion resistance with the HFC refrigerating fulid.

Detailed Description Of The Invention

In following explanatory and nonrestrictive description, listed detail, made much of of the present invention to provide.But, it will be understood by those skilled in the art that the present invention can implement with other embodiment that breaks away from these details.Omitted detailed description, so that can not desalinate the description of this invention to known method, acid and method of manufacture thereof.

The cross-blends material

Synthetic ester base plinth POL blending thing of the present invention comprises a), and some height is bonded into ester base oil material and b) cross-blends of conventional synthetic ester base plinth oil plant.

High sticking polyol ester

The sticking polyol ester of said height basis oil plant is to form through the condensation under the excessive situation of hydroxyl of amyl-based polyol and straight chain and branched-chain monocarboxylate's mixture, wherein in mixture of carboxylic acids, almost or does not fully use iso-C-9.United States Patent (USP) 6,744 discloses the high method that is bonded into the ester base oil material of this type of making in 093, and this patent is quoted through this and incorporated this paper into.

In one embodiment, high sticking oil base stock is the adulterant of ester that constitutes the reaction product of two-step approach.In initial step, in the presence of the hydroxyl excessive, and in the presence of acid catalyst, make amyl-based polyol and straight chain C with 8 to 10 carbon atoms with respect to carboxyl ₄-C ₁₀Acid and/or side chain C ₅-C ₁₀The acid of acid or acid mixture reaction gather the neopentyl polyol ester mixture partially to form.The excessive of hydroxyl is necessary for the polymerization that promotes partial ester, and the mol ratio of acid or acid mixture and polyvalent alcohol can become according to the final required viscosity of required speed of reaction, condensation level and oil base stock.After from reaction vessel, removing anticipation reaction water and having the product of required viscosity with generation; Make gained gather neopentyl polyol ester and excess acid or acid mixture (it can be similar and different with used acid mixture in the initial step) reaction partially, to produce high sticking ester products.

More particularly, the sticking polyol ester of height used in the cross-blends of the present invention has the viscosity of iso 120 to 140, and according to aforesaid method with in the method described in the patent of ' 093, makes the adulterant of tetramethylolmethane and Dipentaerythritol and be selected from C ₅, iso-C ₅, C ₇, caproic acid, iso-C ₉And C ₉The adulterant of one or more carboxylic acid reaction and making in the monocarboxylic acid.

In one embodiment, iso 120 to 140 high sticking polyol esters are to make 60/40 adulterant of tetramethylolmethane and Dipentaerythritol and be selected from nC ₅, iso-C ₅, nC ₇, caproic acid and C ₉In the reaction and making under the hydroxyl situation excessive of one or more carboxylic acid with respect to carboxyl.Even do not use iso-C ₉A kind of as carboxylic acid, at-38 ℃ to 80 ℃, viscosity is that the high-density polyol ester of iso 120 to iso 140 also provides the sufficient compatibility with refrigerant R134a.

Conventional polyol ester

Conventional polyol ester used herein basis oil plant is meant the synthetic ester base plinth oil plant of processing through amyl-based polyol and selected straight chain and branched-chain monocarboxylate's standard condensation reaction.

Conventional ester base oil material of the present invention is the polyol ester based-lubricant of processing through the conventional condensation reaction of polyvalent alcohol and carboxylic acid.Conventional polyol ester basis oil plant has the range of viscosities of iso 20 to iso 350; And can be available from many sources; Comprise Castrol Industrial North America Inc.Warrenville, CPI ' s Solest trade mark, Mobil EAL Arctic, JEC and the Nippon Oil of IL (is trade mark with Icematic), Cognis (is trade name with Evergreen), Uniqema Corporation RL series, POEs.

Lubricating oil composition

Can in cross-blends, add multiple additives, to make the refrigeration lubricant of complete fusion.These additives comprise: antioxidant, antiwear additive and metal deactivator.

Antioxidant

The refrigeration lubricant of fusion can contain about 0.01 weight % to 1 weight % or about 0.05 weight % to 0.5 weight % or about 0.10 weight % one or more antioxidants to about 0.20 weight % fully.

Antioxidant has reduced the in use rotten possibility of lubricating oil.This going bad can increase through oil viscosity, show through oxidation products (for example acid, sludge and the lacquer deposit on the metallic surface).In one embodiment, use 0.10 weight %BHT.

Anti-wear agent

Fully the refrigeration lubricant of fusion can also contain about 0.0075 weight % to 3 weight % or about 0.01 weight % one or more anti-wear agents to about 2 weight % or about 0.06 weight % to about 1 weight %.

Anti-wear agent has reduced the wearing and tearing of metal parts shown in their title.Comprise can be available from the Vanlube 672 of RT Vanderbilt for anti-wear agent commonly used in the refrigeration lubricant, and Tritolyl Phosphate (TCP) wear preventive additive.

Metal deactivator

Fully the refrigeration lubricant of fusion can also contain about 0.001 weight % to 0.1 weight % or about 0.0075 weight % one or more metal deactivators to about 0.05 weight %; For example Methylbenzotriazole (can available from Ciba Specialty Chemicals, trade(brand)name Irgamet TTZ) and sebacic acid inhibiter.In one embodiment, use the Methylbenzotriazole (TTZ) of 0.01 weight %.

Other additive

Other additive comprises sour blocker, for example Texaco ' s Cadura E-10.

The fusion condition

Through being that sticking polyol ester of height and the viscosity grade of iso 120 to iso 140 is the conventional polyol ester fusion of iso 20 to iso 350 with viscosity, realize required final viscosity, thereby make cross-blends of the present invention.Said height sticking with conventional polyol ester and selected additive (if any) in the stainless steel still of steam jacket about 24 hours 120 ℃ to 180 ℃ temperature range fusion.

Through according to the fusion of following cross-blends chart, realize the required viscosity grade of cross-blends.

Cross-blends

Embodiment

Embodiment only is exemplary, rather than will limit scope of the present invention.

The high-density polyol ester that example I and 134a are miscible

The following example shows to have only some high sticking polyol ester of processing according to ' 093 patent just miscible with R134a.

Data show, having only range of viscosities is that the sticking polyol ester of height of iso 120 to iso 140 is just miscible with R134a.Therefore, should use the sticking polyol ester of height in this scope to make cross-blends.

The example II cross-blends

VG120=can be high sticking grade available from the iso120 of Hatco Corporation

SW20=can be available from iso 20 POE of Castrol Industrial North America

SW68=can be available from iso 68 POE of Castrol Industrial North America

SW220=can be available from iso 220 POE of Castrol Industrial North America

SW350=can be available from iso 350 POE of Castrol Industrial North America

The EXAMPLE III wear data

Abrasive nature according to ASTM D2670 Falex Pin and Vee Blocky experimental test cross-blends.The extreme pressure character or the wearing character of lubricant evaluated and tested in Falex Pin Vee Block test.This machine makes test pin rotate with 290rpm with respect to two immobilized Vee pieces., and sample is immersed in the cross-blends lubricant Vee piece applied load through ratchet mechanism, in lubricant, blasts the R-134a refrigeration agent simultaneously.Apply 250lb load initial 5 minute run-in period, applies 400lb load at 30 minutes duration of test.Measure wearing and tearing and be expressed as ratchet mechanism and between at the trial, keep specified permanent load and the progressive number of teeth.The result of cross-blends is listed in the Table III.

The Falex Pin and the Vee Block wear data mean value of three operations of Table III

Fn ¹The mean value of 4 operations

Fn ²The mean value of 3 operations

Claims

1. air-conditioning or refrigeration system polyol ester lubricant base stock; The sticking polyol ester of the height that to be included in 40 ℃ of viscosity be about 120 to 140 centistokes basis oil plant and the cross-blends that 40 ℃ of viscosity is the conventional polyol ester basis oil plant of about 20 to 350 centistokes, the cross-blends that to be created in 40 ℃ of viscosity be 68 to 220 centistokes; And

The sticking polyol ester of wherein said height basis oil plant is derived from the condensation reaction of amyl-based polyol and straight chain and branched-chain monocarboxylate's mixture, and the mixture of wherein said acid does not contain 3,5,5 Trimethylhexanoic acid.

The air-conditioning of claim 1 or refrigeration system polyol ester the basis oil plant; Wherein sticking polyol ester basis oil plant of the height of 15 weight % and 85 weight %'s is the conventional polyol ester basis POL blending of about 20 centistokes 40 ℃ of viscosity, the cross-blends that acquisition is about 32 centistokes 40 ℃ of viscosity.

The air-conditioning of claim 1 or refrigeration system polyol ester the basis oil plant; Wherein sticking polyol ester basis oil plant of the height of 73 weight % and 27 weight %'s is the conventional polyol ester basis POL blending of about 20 centistokes 40 ℃ of viscosity, the cross-blends that acquisition is about 68 centistokes 40 ℃ of viscosity.

The air-conditioning of claim 1 or refrigeration system polyol ester the basis oil plant; Wherein sticking polyol ester basis oil plant of the height of 60 weight % and 40 weight %'s is the conventional polyol ester basis POL blending of about 350 centistokes 40 ℃ of viscosity, the cross-blends that acquisition is about 220 centistokes 40 ℃ of viscosity.