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Various Types of Vacuum Pump Oils: A Detailed Explanation

Vacuum Pump Oils can basically be classified into two categories based on their composition –

1) Mineral Vacuum Oils
2) Synthetic Vacuum Oils

Synthetic Vacuum oils can further be divided into four types:

A) Esters
B) Silicones
C) Ethers
D) Fluorochemicals

Types of vacuum oils have been described in detail below so that you are able to choose the right vacuum oil for your application.

1. Mineral Oils
What are mineral oils made of?

Mineral Vacuum Pump Oil SV-68

The mineral oils used in vacuum pumps are mixtures of aromatic hydrocarbons, paraffin and naphthene. Carbon analysis shows the typical mineral oil to be composed of approximately 65% paraffin, 30% naphthene, and 5% aromatic hydrocarbons.

The paraffins with high boiling point make very good lubricants. They are stable at high temperatures, are fluid at low temperatures, have fairly high viscosity index and are adherent enough to not break down under high shear loads. They tend to oxidize at high temperatures. Paraffins have many possible isomers which have differing properties. Aromatic compounds contain phenyl groups with straight- or branched-chain structures. They form sludge at high temperatures and have an undesirably low viscosity index.

Naphthenes contain rings and chains with no double bonds. Naphthenes have properties between those of paraffins and aromatics. Preparation of a vacuum fluid begins with vacuum distilled base oil that is further purified by solvent extraction and dewaxing. The oils supplied to the vacuum fluid distiller are either single cut with one peak in the molecular weight distribution, or blends made from two of the relatively few refined single cuts.

The oil is further purified by additional distillations. The distillation conditions are chosen to produce fluids of the desired viscosity and vapor pressure. Supervac make SV-68 is mineral oil that is triple distilled with molecular distillation.

Are all mineral oils the same?

No. The base oil is a natural product. Hence, it has characteristics as per its place of origin; as a result, all mineral oils are not the same. We divide mineral oils for vacuum pumps into four grades: mechanical pump, diffusion pump, fully saturated paraffin, and inhibited fluids. The “rotary pump” grade is, composed of blended fluids or single-cut fluids that have not been refined to remove light ends and tars. Vapor pressure requirements in a mechanical pump are not as severe as in a diffusion pump. This grade is typically used in rotary pumps used for rough pumping chambers and backing turbomolecular and diffusion pumps. “Diffusion pump” grade fluids may be characterized as having a single peak in the molecular weight with narrow mass dispersion. Nowadays, with the advent of silicone oils, mineral oils are rarely used for diffusion pumps.

2. Synthetic Fluids

SV-77 - Synthetic Vacuum Pump Oil
(Supervac make)

Mineral oils lack many properties of the ideal fluid. When used in a diffusion pump, their ultimate pressure is unacceptably high for many applications. They are not stable in oxygen, have some tendency to sludge and foam, and do not offer adequate protection in boundary layer lubrication. Synthetics were developed to overcome the shortcomings of hydrocarbon oils. Synthetic fluids (SV-77) with low vapor pressure, high viscosity index, a high degree of lubricity, and chemical inertness have been specially designed and formulated.

Comparison of Molecules

Synthetic Vacuum Oils can be classified in four categories -

A) Esters

Esters are chemicals formed by the reaction of an organic acid and an alcohol. The esters used in vacuum pump fluids all contain the same ester chemical bond, but have differing structures and rather widely varying properties. Sebacate esters (derived from sebacic acid) are organic esters that were originally developed as jet engine and aircraft instrument lubricants and today used to lubricate turbomolecular pumps. Environmental concerns have resulted in the disuse of many older ester lubricants.

Temperature/ Viscosity graph of different vacuum oils

B) Silicones

What are Silicone oils/fluids?

Molecular structure of silicone oil

Silicones, or siloxane polymers, are made up of repeated silicon oxygen groups with silicon bonds to side groups. The unique character of the silicon-oxygen bond gives similarly unique properties to silicone-based fluids.

The type of side groups (methyl, phenyl, alkyl, chloro, etc.) and the number of silicon atoms determine the properties and applications of the fluid. The large size of the silicon atom allows the phenyl and methyl side groups great mobility. The high flexibility of the siloxane chain accounts for the high viscosity index of silicones. As a class, silicones have the highest viscosity index of any fluid.

Diffusion pump oil SV-SIGMA+ (Alt.of DC-705)

Which Silicone fluids are used in Diffusion pumps?

Trisiloxanes and polysiloxanes are two fluids used in vacuum pumps. Trisiloxanes are widely used diffusion pump fluids. They do not adhere to steel and cannot be used as lubricants in rotary/mechanical pumps. They are manufactured by controlled hydrolysis of silanes and addition of phenyl groups, followed by distillation. The first silicone diffusion pump fluids, IX-702 and DC-703, were mixtures of closely related molecular species with similar boiling points. Further separation leads to the isolation of two specific chemical compounds - Tetraphenyl tetramethyl trisiloxane (DC 704/ SV-SIGMA) and Pentaphenyl trimethyl trisiloxane (DC-705/ SV-SIGMA+). One compound of Pentaphenyl silicone is DC705/ SV-SIGMA PLUS and has one of the lowest vapor pressures of any diffusion pump fluid.

C) Ethers

An ether may be regarded as a derivative of a water molecule in which the hydrogen has been replaced by alkyl or aryl groups. Polyphenyl ethers were synthesized in an attempt to develop high temperature jet engine lubricants. Hickman was the first to use them as diffusion pump fluids. He found the five-ring phenyl to be stable and have extremely low vapor pressure. Commercially available fluids are mixed meta- and para-isomers of the pentaphenyl ether, which contain trace impurities of the four-ring compound. The four-ring compound has a high vapor pressure, while the six-ring compounds are either solids or glasses. Pentaphenyl ether is very viscous at low temperatures but is stable and has excellent high-temperature lubricating properties. Its wear, friction, and load capacity are in some cases equal to mineral oil. Its chemical stability and low vapor pressure make it an outstanding fluid for critical diffusion pump applications.

D) Fluorochemicals

Fluorochemical fluids are characterized by their inertness to a wide range of chemical compounds. Partially and fully fluorinated fluids have found use as lubricants for space applications, oxygen compressors, and liquid oxygen systems.

Fluorinated pump fluids, perfluoro alkyl polyethers (perfluoropolyethers or PFPE for short), are currently manufactured by two techniques. Fomblin fluids are prepared by the UV-stimulated photooxidation of hexafluoropropylene and oxygen. It is a random copolymer of C3F6O and COF2. ranges from 10-to-40. Krytox fluids are prepared by the polymerization of hexafluoropropylene epoxide. Krytox consists of 20-30 repeating C3F60 groups.

Raw perfluoropolyethers have a distribution of molecular weights extending as high as 10,000 AMU. They are distilled to yield cuts with average molecular weights in the range 1800-3700 that are suitable for use in mechanical, turbomolecular, and diffusion pumps.

Perfluoropolyethers are stable Lewis bases that react with few chemicals. They should not be placed in contact with ammonia, amines, liquid fluorine, liquid boron trifluoride, or sodium or potassium metal. Laboratory experiments have shown PFPE fluids to decompose when heated sufficiently (>lOO°C) in the presence of Lewis acids.

Molecular structure of PTFE vacuum pump oil

3 Secrets that Mineral Vacuum oil manufacturers will not tell you

First of all, Understand - Not All Vacuum Pump Oils Are The Same

There are three types of vacuum pump oils-

1. Mineral Vacuum Pump oil – traditional oils made by refining crude oil – still being used by those who haven’t woken up to the countless benefits that synthetic oils offer.

2. Semi-Synthetic Vacuum Pump Oil- Also known as ‘blends’- made by mixing mineral and synthetic oils – not recommended for vacuum pumps.

3. Synthetic Vacuum Pump oil – made by advanced refining process of the base oil in which individual molecules of the oil are customized to the extreme demands of the vacuum pump.

DID YOU KNOW? Supervac Industries is the only company in India manufacturing state-of-the-art synthetic vacuum pump oil with the brand name SV-77.

Secret # 1 -

1) Mineral oil tends to turn viscous (thick) at low temperatures, taking time to circulate within the pump. This causes friction, and therefore, wear within the vacuum pump.

Once the vacuum pump runs for a few hours, the oil inside tends to heat up. Mineral oils under such conditions tend to go thin and runny giving no lubrication to the pump parts.

SV-77 molecules, on the other hand, have been engineered for high-temperature stability. So it retains its viscosity and lubricity even in very hot conditions. Furthermore, it is designed to protect the vacuum pump from deposits and prolongs the vacuum pump life.

Performance of SV-77 is exceptionally robust at both low as well as high temperatures, which is rare in vacuum pump oils.

This protects the pump from unnecessary wear and tear thus saving the user from loss of money and precious time wasted in the maintenance of the pump.

79% less maintenance required by using SV-77 synthetic vacuum oil.

Secret # 2 -

2) Mineral vacuum oil is made through the process of hydrocracking crude oil which eliminates most of the impurities – but not ALL impurities.

This means that the offered mineral vacuum oil still contains a large amount of sulfur, reactive, unstable hydrocarbon molecules and many other unwanted contaminants.

Under extreme working conditions of the vacuum pump, these contaminants turn into sludge and harm the pump. Working life is greatly reduced.

Secret # 3 -

3) During the initial working of the vacuum pump, mineral oil is much thicker and sluggish. Hence it circulates much slowly and is unable to deliver fast vacuum. The pump has to work extra hard at such times which lowers its efficiency considerably.

Compared to this, SV-77 vacuum oil needs no time to ‘wake up’. It delivers a fast vacuum, thereby increasing the pump efficiency.

43% Faster vacuum time

Vacuum Pump Oil SV-77

SV-77 has been designed by the best engineering minds of India and Europe to deliver the following great benefits to the vacuum pump users:

• Outstanding protection of the pump

• Minimizing oil degradation

• Faster lubrication at start-up in low temperatures

• Excellent protection at high temperatures

• Exceptional resistance to thermal breakdown

• Clean and fast vacuum

• Outstanding protection against harmful deposits

• Cleaner vacuum pumps

• Vacuum pump efficiency

• Greater resistance to oil oxidation (thickening), which reduces mechanical drag

• More efficient pump operation over a wider temperature range

• Reduces friction and protects moving parts within the pump

• Prevents rust

• Exhibits hardiness against process gasses and moisture

CONCLUSION:

When selecting vacuum oil for your pump, do so after making sure that it will deliver the full value of its cost and at the same time protect your valuable pump. The oil is not just meant to create sufficient vacuum for your process. Its long-term effect on the pump & the maintenance just cannot be ignored.

With science and technology developing at such a fast pace, it makes perfect sense to let go of outdated products like mineral vacuum oils.

Also, latest technology is no longer confined to just Europe and the U.S. Technologically advanced Indian products like our SV-77 have done us proud. Along with supply to many major Indian industries and the Defense Department, it is currently being exported to 17 different countries of the world.

Related Articles

Top 20 Questions About Rotary Vacuum Pumps and Oils

Q.1 What is a Roughing Pump?

Oil Sealed Rotary Vacuum Pump

Ans. A Roughing Pump is nothing but an ordinary Rotary vacuum pump which is used to evacuate the vacuum system initially. After a roughing pump creates vacuum of minimum 1x10^-2 Torr, the valve systems changes settings and pumps like Booster Pump and Diffusion Pump are connected to system to create higher vacuum.

Q.2 What should be the basic properties of rotary vacuum pump oil?

Ans. Rotary vacuum pump oil must have following properties:-

1. Low vapor pressure of less than 1x10^-3 Torr.

2. Should have viscosity between 65 to 80 cst at 40^oC.

3. Should not contain corrosive elements like sulphur.

4. Should be resistant to oxidation.

5. Viscosity of the oil should not change much with change of temperature.

Q.3 Which is better - synthetic rotary vacuum pump oil or mineral vacuum pump oil?

Ans. Synthetic rotary vacuum pump oils give higher vacuum, create vacuum faster and have longer working life. In addition, synthetic rotary vacuum pump oil preserves and protects the pump interiors. So these next generation synthetic oils are superior to commonly used organic rotary vacuum pump oils. The latter is used only where cost is an issue. Supervac Industries manufactures both synthetic as well as mineral rotary vacuum pump oils – SV-77 and SV-68 respectively.

synthetic rotary vacuum pump oil-mineral rotary vacuum pump oil

Q.4 Can I use simple hydraulic oil for my rotary vacuum pump in place of rotary vacuum pump oil?

Ans. No, you should never do that as this can seriously damage your rotary pump. Rotary vacuum pump oil is not an ordinary lubricant. It is a special fluid manufactured with thermal and oxidative stability. Unlike hydraulic oil, rotary vacuum pump oil has a low vapor pressure. It is therefore absolutely different from normal hydraulic oil or motor oil.

Q.5 Can I use simple motor/engine oil for my Rotary Vacuum Pump?

engine oil-synthetic rotary vacuum pump oil-lubricant-supervac-industries

Ans. Never ever use motor/engine oil for your Rotary vacuum pump. People tend to make this mistake so very often only to end up regretting eventually. Motor oils are lubricants designed for automobile engines which work under different principles whereas rotary vacuum pump oils are specialty fluids manufactured keeping in mind the requirements of a vacuum pump. Motor oils have a different viscosity from vacuum pump oils and have no vacuum properties at all. Motor oils carry various additives like rust inhibitors and anti-corrosion compounds. When put in the rotary pump, under low pressure and high temperature, these additives separate from the base fluid and cling to the insides of the pump as sticky/gummy solids. This affects the vacuum pressure and harms the pump. Under high temperature of the vacuum pump, motor oils/hydraulic oils start releasing vapors, thus bringing down the vacuum, where as good quality rotary vacuum pump oils do not release any vapors. Supervac manufactures high quality Synthetic Rotary Vacuum Pump Fluid- SV-77, which is a boon in terms of vacuum formation and pump maintenance.

Q.6 Do Roughing/rotary pumps need topping up of vacuum pump oil?

Ans. Rotary vacuum pumps lose a small amount of vacuum oil in the form of oil mist. This loss is pronounced in initial (roughing) phase. To make up for this loss of oil it is advisable to top up rotary vacuum pump oil from time to time.

Q.7 Will Rotary vacuum pump oil used in Kinney pump and Stroke pump ( both are roughing pumps) be the same or different?

Ans. Vacuum pumps as well as vacuum pump oils are made as per international specifications. So a good rotary vacuum pump oil will be suitable for all/any rotary vacuum pump made anywhere in the world and by any manufacturer.

Just like the same petrol works for cars made by Honda, Suzuki, Audi, Toyota or any other brand.

Q.8 What is a two stage rotary vacuum pump?

Ans. A Rotary vacuum pump works by mechanically compressing and pushing out the air from inlet to outlet. The outlet pressure therefore has to be higher than atmospheric pressure for exhaust to take place. In two stages rotary pump the outlet of one chamber is connected to inlet of next chamber. This increases the compression and makes the air exhaust possible.

Majority of rotary pumps are two stage rotary pumps.

Q.9 How do I know that I need to change the oil of my rotary pump?

Ans. In vacuum industry practices for vacuum oil change vary widely.

Usually one of these three reasons trigger oil change:-

1. Rotary pump starts taking longer to create vacuum or is unable to reach the desired vacuum level.

2. Color of oil changes from transparent or golden yellow to dark brown indicating oxidation.

3. Some engineers prefer to change oil after a fixed number of working hour which are either recommended by manufacturer or are based on experience.

Q.10 Can I recycle my rotary vacuum pump oil?

Ans. No, rotary vacuum pump oil cannot be recycled. This is because vacuum pump oils work under very demanding conditions. Used vacuum oil, even if recycled, will still be carrying various contaminants. For the safety of expensive vacuum pump, used oil is best discarded.

Q.11 What are the reasons of noise in rotary vacuum pump?

Ans. Normally rotary pumps work noiselessly.

Noise in rotary vacuum pump could be because of following reasons:-

1. Excessive gas load because of some leak in system. This may also be accompanied be release of oil mist from pump.

2. Some foreign object lodged in rotary pump. This will cause intermittent, loud noise.

3. Worn out ball bearings. This causes continuous noise.

Q.12 What is the normal working temperature of a rotary vacuum pump?

Ans. Normal working temperature of rotary pump is about 80^o C.

Q.13 My rotary pump overheats sometimes. Is this serious?

Ans. Yes, this is serious as pump can get seriously damaged if temperature of pump exceeds 100^oC. Rotary pumps need to be run in well-ventilated areas and in case of extremely hot climates, as is common in India, use a fan to cool the pump externally. Overheated pumps will not give the required vacuum and thus unduly affect either the working of diffusion pump or the entire process. Also, the oil in an overheated pump will turn less viscous (too thin) and will not lubricate the pump interiors well; thereby leading to pump failure.

Q.14 What is gas ballast in rotary vacuum pump?

Ans. Since rotary vacuum pump creates vacuum by positive displacement and compression of air so during operation of this pump some water vapors condense to water and mix with vacuum oil. This reduces the vacuum.

Some pumps are equipped with gas ballast mechanism. This mechanism allows some air to flow into compression portion of pump cycle, diluting the water vapor. This causes fewer tendencies of water vapors to condense. This is called gas ballasting.

Q.15 Do vane type rotary pump and piston type rotary pump require different rotary vacuum pump oils?

Ans. In both vane type rotary pump and piston type rotary pumps, function of vacuum oil is to provide lubrication. At the same time for both these pumps the rotary vacuum pump oil should have a low vapor pressure and good viscosity stability.

Since both types of pumps require same characteristics of vacuum oil so the same vacuum oil is used for both these types of pumps.

Q.16 How do piston pumps work?

Piston Rotary Vacuum Pump

Ans. Piston pump is a type of Rotary Vacuum Pump. This pump works on a principle of drawing in and compressing of gas to exhaust it to atmosphere. It has an eccentric circular piston that rotates around the cylinder to create vacuum. This pump requires a Rotary Vacuum pump oil seal between the metal surfaces of the piston to separate the incoming and exhausting gas in the pump. The circular piston, rotating around the pump sucks in air from the chamber, compresses it and drives it out from the pump to create vacuum. Rotary Vacuum Pump oil provides lubrication also.

Q.17 What is a dry rotary vacuum pump. Compared to oil-sealed pump, is it economical to use?

Dry rotary vacuum pump

Ans. A dry pump does not depend on Rotary Vacuum Pump Oil for its operation. In this pump a set of spirals draw air in to the center of spiral, continuously compressing it. Air thus compressed finally exits from the center of spiral. These spirals are normally made of Ceramic materials.

Because of very high cost this pump is not very popular in vacuum industry and is used only where oil free vacuum is essential.

Q.18 Oil rotary vacuum pump or dry vacuum pump - Which works out cheaper?

Ans. A conventional rotary vacuum pump using rotary vacuum pump oil works out cheaper. Dry pump have a very high cost because of ceramic components used in them. Dry pumps are mainly used in industries like semi conductor industry where cost is not of much importance.

Q.19 What is Holding Pump?

Holding vacuum pump

Ans. Holding pump is a simple rotary vacuum pump of small capacity. Its function is to create holding vacuum for diffusion pump, hence the name holding pump. It is invariably connected to diffusion pump and not directly to the vacuum chamber.

Q.20 Why should I buy rotary vacuum pump oil from Supervac Industries?

Ans. Supervac Industries, New Delhi, India is a reputed and trusted supplier of Rotary Vacuum pump oil. More than 90% of companies using vacuum systems in India are buying vacuum consumables from Supervac Industries for more than 15 years.

Written by: Anshuman Punj.

Go to Supervac Industries Website

Click Here

Why Should Vacuum Oils be changed at specified intervals?

In the present time of cut throat competition, users are under great pressure to reduce the cost of production. To achieve this objective, many times vacuum oils are not changed at specified intervals to get more “life” from them.

This is a dangerous practice and can damage the vacuum system badly. Let us understand why-

Oils degenerate on account of oil oxidation. In Oxidation, oxygen reacts with the oil to form Hydro-peroxides. Hydro-peroxides are unstable and break down into Ketones. Ketones further oxidize to form Aldehydes and Carboxylic acid. Now Carboxylic acid attacks the pump metal parts as well as O rings, Oil seals etc. causing acid corrosion. That is not all. By products of oil oxidation in the presence of acid further react and combine to form larger molecular species which polymerize to form sludge.

Flow chart no. 1 - Degeneration of oil.

Sludge makes oil very viscous and can cause –

· Jamming and breakage of vanes in the Rotary Vacuum Pump.

· Overheating and damage to the pump interiors in the Diffusion Pump.

What is even more damaging is that this process is like a nuclear chain reaction that keeps speeding up with time. With oxidation, oil thickens and this reduces lubrication, which in turn results in a higher temperature. At increased temperature the rate of oxidation further increases (Rate of oxidation doubles with every 10⁰C rise of temperature as per Arrhenius rate rule). This damages costly vacuum pumps in a short time.

Flow chart no. 2 - Oil oxidation: chain cycle.

Oils therefore must be changed as per specified schedule.

Note: In this blog post I have explained the oxidation process of hydrocarbon/ mineral oils. In a different post, I shall explain how silicone oil degenerates.