Engine Oil Additive - FM is available in two blends: FM-Conditioner and FM-Protect. FM-Conditioner conditions worn engine components over 1,500-2,000 miles prior to using FM-Protect long term. Both blends contain nanodiamonds in a graphene shell that deliver benefits like friction reduction, increased load bearing capability, reduced pollution, temperature stability, and extended engine and oil life. Engine Oil Additive - FM can be added to gasoline or diesel engines and is recommended in amounts ranging from 1.6 to 15 oz depending on engine oil capacity. Independent laboratory testing confirms the product's performance claims.
Liquid Fuel Specification for Industrial Gas TurbineMd. Moynul Islam
Liquid Fuel Specification for Industrial Gas Turbine, a Special Article on Liquid Fuel Selection for Industrial Gas Turbine and the Role of Various Fuel Additives in Protecting Turbine Blades from High Temperature Corrosion
NTM Corp: Presentation on the basic concept of base oilsjapjaca
A presentation on the basic concept of base oils and base oil groups prepared as an introductory deck for a series of training given to customer and in-house staff.
NOTE: This contains parts of the standard Mobil presentation decks.
Liquid Fuel Specification for Industrial Gas TurbineMd. Moynul Islam
Liquid Fuel Specification for Industrial Gas Turbine, a Special Article on Liquid Fuel Selection for Industrial Gas Turbine and the Role of Various Fuel Additives in Protecting Turbine Blades from High Temperature Corrosion
NTM Corp: Presentation on the basic concept of base oilsjapjaca
A presentation on the basic concept of base oils and base oil groups prepared as an introductory deck for a series of training given to customer and in-house staff.
NOTE: This contains parts of the standard Mobil presentation decks.
A complete guide on machinery oil analysis and oil condition monitoring.
Topics covered:
1. Oil sampling procedures
2. Oil analysis process
3. Oil analysis parameters
4. Oil specs and oil selection methodology
5. Case study: Car Engine
6. Case study: Power Turbine
7. Case study: Electric Transformer
Lube Oil Blending Plants (LOBPs) have a key role to play in the manufacture, sales and distribution of bulk and packed lubricants. This study gives an overview of the Global lubricants market and proposes a methodology for Performance evaluation of Lube Oil Blending Plants.
Ding Oil International Trading Co., Ltd is a leading corporation of Taiwan which manufacturers, develops and distributes lubricants & chemical additives for engines and industry worldwide.
NPL has entered into an Agreement with Meguin GmbH and Co. KG, Germany for manufacturing & marketing Meguin Lubricants and Car Care Additives in India.
Meguin was founded in the year 1847 in Germany and represents 160 years of experience in lubricants and stands for quality and sophisticated new product ideas.
The company initially produced hoof greases, linseed oils, and carriage lubricants. The
company expanded in 1890 to encompass lubricants for the rapidly expanding steel industry and the emergence of the automobile.
On 2 June 2006, Meguin was merged with the world leader in additives LIQUI MOLY. The
merged entity now enjoys leadership in both lubricants and additives on a global scale.
Today Meguin with Liqui Moly has presence in over 95 countries throughout the world. In
addition to consumer needs for oils, it provides total oil solutions to major industries and OEM's all over
This presentation details the lubrication design of the Royal Enfield 500cc Unit Construction Engine. This is the engine used by Royal Enfield for its export models including the Bullet Classic (C5) and Electra Classic (G5/E5).
Bio-lubricants for Tropics to Save Energy and EnvironmentOleg Kulikov
Engine oil is comprised of a base fluid enhanced with additives. We developed a novel bio-based additive pack for engine oils. It comprises neither Sulfur nor Phosphorus and enables application of palm olein as a base fluid for tropical countries. Such bio-oil enhances fuel economy of an engine up to 30% and radically extends longevity of the engine as wear rate can be 25-50 (!) times slower in comparison with the best synthetic engine oils. We work on similar bio-oils for countries with moderate climate too.
In pursuit of excellence, NPL has introduced its brand Velvex For Total Industrial Lubricant
Solutions to the Industrial oil users. Keeping customer benefits and service at the forefront,
Velvex has been developed to provide complete satisfaction with simultaneously offering value for money to its esteemed customers.
Project thesis Refining of used motor oil using Solvent ExtractionSyed Waqas Haider
It is thesis of my final year project at the completion of my BE Chemical Engineering Degree
Project Title: Refining Of Used Motor Oil
Technique Used: Solvent Extraction technique was used for refining
Analytical Method: Fourier Transform Infrared Spectrometry (FTIR)
A complete guide on machinery oil analysis and oil condition monitoring.
Topics covered:
1. Oil sampling procedures
2. Oil analysis process
3. Oil analysis parameters
4. Oil specs and oil selection methodology
5. Case study: Car Engine
6. Case study: Power Turbine
7. Case study: Electric Transformer
Lube Oil Blending Plants (LOBPs) have a key role to play in the manufacture, sales and distribution of bulk and packed lubricants. This study gives an overview of the Global lubricants market and proposes a methodology for Performance evaluation of Lube Oil Blending Plants.
Ding Oil International Trading Co., Ltd is a leading corporation of Taiwan which manufacturers, develops and distributes lubricants & chemical additives for engines and industry worldwide.
NPL has entered into an Agreement with Meguin GmbH and Co. KG, Germany for manufacturing & marketing Meguin Lubricants and Car Care Additives in India.
Meguin was founded in the year 1847 in Germany and represents 160 years of experience in lubricants and stands for quality and sophisticated new product ideas.
The company initially produced hoof greases, linseed oils, and carriage lubricants. The
company expanded in 1890 to encompass lubricants for the rapidly expanding steel industry and the emergence of the automobile.
On 2 June 2006, Meguin was merged with the world leader in additives LIQUI MOLY. The
merged entity now enjoys leadership in both lubricants and additives on a global scale.
Today Meguin with Liqui Moly has presence in over 95 countries throughout the world. In
addition to consumer needs for oils, it provides total oil solutions to major industries and OEM's all over
This presentation details the lubrication design of the Royal Enfield 500cc Unit Construction Engine. This is the engine used by Royal Enfield for its export models including the Bullet Classic (C5) and Electra Classic (G5/E5).
Bio-lubricants for Tropics to Save Energy and EnvironmentOleg Kulikov
Engine oil is comprised of a base fluid enhanced with additives. We developed a novel bio-based additive pack for engine oils. It comprises neither Sulfur nor Phosphorus and enables application of palm olein as a base fluid for tropical countries. Such bio-oil enhances fuel economy of an engine up to 30% and radically extends longevity of the engine as wear rate can be 25-50 (!) times slower in comparison with the best synthetic engine oils. We work on similar bio-oils for countries with moderate climate too.
In pursuit of excellence, NPL has introduced its brand Velvex For Total Industrial Lubricant
Solutions to the Industrial oil users. Keeping customer benefits and service at the forefront,
Velvex has been developed to provide complete satisfaction with simultaneously offering value for money to its esteemed customers.
Project thesis Refining of used motor oil using Solvent ExtractionSyed Waqas Haider
It is thesis of my final year project at the completion of my BE Chemical Engineering Degree
Project Title: Refining Of Used Motor Oil
Technique Used: Solvent Extraction technique was used for refining
Analytical Method: Fourier Transform Infrared Spectrometry (FTIR)
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
a presentation about ( Engine Oil ) to Petrochemical lecture
Outline:
• Engine oil introduction
• Types of Engine Oil
• Oil Consumption for cars
• What are the reasons for high oil consumption in cars?
• What is motor oil?
• Detergents
• Anti - wear additives
• Modifiers
• Anti - Foam additives
• Rust & corrosion
• Viscosity index improves
• Pour - point depressant
Hope you like it and benefits you.
Triple R Bypass Filtration of Diesel Motor OilMel Chaar
Using Triple R Bypass Filtration for motor oil, the aim is protecting the investment beyond normal reactive maintenance (oil change) and moving into the pro-active maintenance territory. Here, oil is cleaned during operation, providing better performing gensets with
longer engine life, while minimizing factory interruption.
The manufacturer set the change interval as a recommendation based on several parameters, namely;
• Oil grade (depicts additives package),
• Estimated contamination, and,
• Working environment.
Additives are the first line of defense against contamination - they scarify themselves to protect the oil. Additives adhere to contaminants, they engulf and break them down, as well, they protect engine walls so contaminants won’t damage them. Once additives are exhausted, oil is left without any meaningful protection and needs replacing. With Triple R Oil Cleaner, contaminants are continuously removed from oil, almost as quickly as they develop under normal engine operation. With such a setup, additive package
depletion slows down by a factor between 4 to 10 times. As such, oil is protected for that much longer, and consequently, the oil change interval is extended by a similar factor.
1. Copyright 2015-2016, Nano Materials and Processes, Inc. All rights reserved. Page 1 of 4
ENGINE OIL ADDITIVE - FM
Product Description and Benefits
Engine Oil Additive – FM is available in two blends: FM-Conditioner and FM-Protect.
FM-Conditioner is a blend of specially prepared 4-10 nm (initial crystal size) nanodiamonds in a
graphene shell and other materials in semisynthetic oil. It conditions the surface of worn
cylinder walls, bearing journals, camshafts and other oil lubricated components over a 1,500-
2,000 mile break-in prior to the long term use of FM-Protect. FM-Conditioner may be used a
maximum of two times on badly worn engines.
FM-Protect is a blend of 4-10 nm (initial crystal size) nanodiamonds with a graphene shell in a
synthetic oil base that is added with each engine oil and filter change for the life of the vehicle.
Engine Oil Additive FM delivers a range of benefits that significantly lowers the total cost of
ownership of the engine and vehicle operating cost. These benefits derive from the size and
physical and chemical characteristics of the nanodiamonds:
Friction Reduction
Even surfaces that appear to be smooth and have been finished to a very fine
tolerance have microscopic imperfections. When two metal surfaces pass by
each other in close contact, these imperfections ‘catch’ and produce erosion by
electrosparking, creating wear and heat. Nanodiamonds fill-in micro-cracks in
surfaces that are subject to ‘metal-to-metal’ contact. Nanodiamonds also
penetrate the crystal lattice of the metal to harden the surface layers of a
friction pair and increase their fatigue resistance. Further, nanodiamonds adsorb
oil on their surface to form a ‘greasing cover’ that retains a layer of oil even in
absence of lubrication conditions.
Nanodiamonds increase the lubricity of engine oil. Untreated engine oil thins
out under high heat and hydrodynamic wedge conditions causing wear from
metal-metal micro-contacting. The exceptionally high surface activity of
nanodiamonds causes the engine oil to maintain its viscosity and lubricity even
under these conditions.
Nanodiamonds reduce the coefficient of friction by 12.9% in Falex testing. The
wear scar is reduced by 15.6% following initial break-in.
2. Copyright 2015-2016, Nano Materials and Processes, Inc. All rights reserved. Page 2 of 4
Friction reduction frequently improves fuel economy. In SAE J-1321 testing,
Engine Oil Additive FM-Protect showed a 1.06 – 1.19% improvement. Actual
results will vary based upon application.
Increased Load Bearing Capability
Surfaces conditioned by nanodiamonds are harder and able to withstand loads
that are 17.3% higher in Falex testing.
Tested PIN and V Block Material
PSI
Load
Wear
Scar
Coefficient
of Friction
Oil Only, No Break-in 81,605 0.225 0.116
DSND, No Break-in 72,537 0.250 0.113
DSND, 6-Hour Break-in 72,537 0.250 0.101
DSND, 30 Hour Break-in 72,537 0.250 0.110
DSND, 48-Hour Break-in 95,709 0.190 0.101
Improvement After 48-Hour Break-in 17.3% 15.6% 12.9%
Table 1 – Test Method: ASTM D3233B Modified (Falex)
Reduced Production of Pollution Products
Engine Oil Additive-FM components migrate into the combustion chamber
through vaporization of engine oil and recycling through the Exhaust Gas
Recirculation (EGR) system. Since the flash point of nanodiamond is higher than
that of the fuel they do not ignite, but are dispersed in the air/fuel mixture
where they act as a catalyst to improve the combustion process. As a result, the
production of soot is drastically reduced with reductions in emissions of NOX, CO
and hydrocarbons. In diesel engines this significantly impacts the load on the
soot capture system and the consumption of fuel to eliminate collected soot. It
also reduces the cost of DEF to reduce NOX. For some types of vehicles it may
also increase the number of hours per day the vehicle can be utilized saving both
operator time and, for large operations, reducing the quantity of vehicles and
operators needed. (For greatest effect in diesel engines, use Fuel Additive – CC.)
Temperature Stability
Oil is a natural insulator and heat is an enemy of lubricant and component life.
Nanodiamond is a natural conductor and facilitates the movement of heat out of
the engine. This can be seen in stabilized operating temperature and the
improved time to cool down for the engine.
Extended Engine Component Life
As a result of the “polishing” and high surface activity of the nanodiamond that
improves the lubricity of the oil and reduces oil contaminants, the life of the
3. Copyright 2015-2016, Nano Materials and Processes, Inc. All rights reserved. Page 3 of 4
lubricated components is extended by 2X to 4X, even under severe conditions of
use.
Extended Engine Oil Life
The breakdown of the engine oil additive package is closely related to the
production of soot by the engine and the collection of impurities produced by
electrospark erosion. By significantly reducing the production of engine oil
contaminants resulting from the combustion process the engine oil and additive
package life are extended by approximately 2-1/2 X. The useful life of engine oil
will vary by application and environment. Actual life will be determined by using
periodic laboratory testing and measurement of the Total Base Number (“TBN”).
Direct benefits from extended engine oil life include (a) reduced vehicle
downtime; for a 100,000 annual mileage vehicle using a 25,000 mile oil change
cycle it saves two annual oil changes and the costs related to those changes, (b)
(potentially) reduced size of maintenance facilities and number of related
personnel and (c) reduction in the total quantity of vehicles needed in very large
fleets because of increased availability.
NOTE: BENEFITS DEVELOP GRADUALLY AND IMPROVE OVER TIME. THEY CAN BE MEASURED
OR OBSERVED.
Applications
Engine Oil Additive – FM can be added to any engine with a lubricating oil sump. This includes
both vehicular and non-vehicular engines (e.g., generators). Typical applications include:
Trucks
Buses
Locomotives
Generators
Taxis
Off Highway Equipment such as skid
loaders, excavating equipment,
mining equipment and construction
equipment
Passenger cars
High performance vehicles (USE
ONLY FM-PROTECT)
Determining the Quantity of Engine Oil Additive – FM Required
Use the quantity of Engine Oil Additive – FM as indicated in the following table. If your engine
oil capacity (including filter) does not fall into one of the ranges below, you can calculate the
amount needed using the ratio 1:100 for additive:oil capacity.
Recommended Additive Package Size
Oil Sump Capacity in Quarts Additive-FM Package Size
4-6 1.6 oz.
6-8 2.5 oz.
36-42 12 oz.
42-50 15 oz.
4. Copyright 2015-2016, Nano Materials and Processes, Inc. All rights reserved. Page 4 of 4
DO NOT USE MORE THAN THE RECOMMENDED AMOUNT; RESULTS WILL BE IMPAIRED!
Contact Nano Materials and Processes, Inc. for no-charge application engineering support.
WHEN USED AS DIRECTED, YOUR SATISFACTION IS UNCONDITIONALLY GUARANTEED OR YOUR
MONEY BACK.
Additional Information
Independent laboratory test report using ASTM D3233B Modified Falex Pin & V Block Test is
available. Testing was conducted by Petro-Lubricant Testing Laboratories, Inc.
Independent laboratory report using SAE J-1321 by Texas Transportation Institute.
The report of a race team crew chief is available.
Please see our website at www.nanompi.com or call us at 248-529-3873.