Diesel Antifreeze

Total Page：16

File Type：pdf, Size：1020Kb

DIESEL ANTIFREEZE PRODUCT DESCRIPTION CHARACTERISTIC/ADVANTAGES Diesel Antifreeze is mixed with diesel fuel to reduce Reduces freezing point down to -24°C when mixed pour point of diesel fuel. It provides engine start up wtih the diesel fuel. easily by preventing freezing of diesel fuel. Improves engine performance by helping easy engine start up in cold temperatures. USAGE To get best result, first put the Diesel Antifreeze into the fuel tank then add diesel fuel. Add 120 litres diesel fuel to the one bottle (330 ml) of Diesel Antifreeze for the optimum mixture. TYPICAL PROPERTIES Appearance Light blue viscous liquid Specific Gravity @15°C, kg/l 0,823 Viscosity @40'C, cSt ASTM D 445 2,7 V.O.C. % Weight <1,0 Inflammableness II.class 1/2 ROM.TDS.009/Rev.01/22.06.2015 HEALTH AND SAFETY RECOMMENDATIONS It is flammable, so must be kept away from fire and sparks. Eye contact should be avoided. In case of eye contact, wash with plenty of water. If contact witk skin, wash the area immediately with plenty pf water and soap. In case of skin irritation or redness caused by contact, seek advice of your doctor immediately. For more information contact Material Safety Data Sheet (MSDS). The vehicle and equipment manufacturers spesifications and relevant international standards were taken into consideration while preparing the content of this Technical Data Sheet. The expressions in the content of this Technical Data Sheet can not be considered as guarantee commitment or similar way in terms of product characteristics and product use in any applications. The correct use of this product, compliance with applicable laws and regulations is responsibility of the user. Opet Fuchs Madeni Yağ. San. ve Tic. A.Ş. can not be held responsible for any loss or damage arising from the abnormal use and misuse or any hazards of product content and its results. This Technical Data Sheet is valid from the date of publication. The information in the content of this Technical Data Sheet are subject to change without notice. Please contact with Opet Fuchs Technical Services Department for more information. 2/2 ROM.TDS.009/Rev.01/22.06.2015 .

Copy Link

Recommended publications

Fuel Properties Comparison
Alternative Fuels Data Center Fuel Properties Comparison Compressed Liquefied Low Sulfur Gasoline/E10 Biodiesel Propane (LPG) Natural Gas Natural Gas Ethanol/E100 Methanol Hydrogen Electricity Diesel (CNG) (LNG) Chemical C4 to C12 and C8 to C25 Methyl esters of C3H8 (majority) CH4 (majority), CH4 same as CNG CH3CH2OH CH3OH H2 N/A Structure [1] Ethanol ≤ to C12 to C22 fatty acids and C4H10 C2H6 and inert with inert gasses 10% (minority) gases <0.5% (a) Fuel Material Crude Oil Crude Oil Fats and oils from A by-product of Underground Underground Corn, grains, or Natural gas, coal, Natural gas, Natural gas, coal, (feedstocks) sources such as petroleum reserves and reserves and agricultural waste or woody biomass methanol, and nuclear, wind, soybeans, waste refining or renewable renewable (cellulose) electrolysis of hydro, solar, and cooking oil, animal natural gas biogas biogas water small percentages fats, and rapeseed processing of geothermal and biomass Gasoline or 1 gal = 1.00 1 gal = 1.12 B100 1 gal = 0.74 GGE 1 lb. = 0.18 GGE 1 lb. = 0.19 GGE 1 gal = 0.67 GGE 1 gal = 0.50 GGE 1 lb. = 0.45 1 kWh = 0.030 Diesel Gallon GGE GGE 1 gal = 1.05 GGE 1 gal = 0.66 DGE 1 lb. = 0.16 DGE 1 lb. = 0.17 DGE 1 gal = 0.59 DGE 1 gal = 0.45 DGE GGE GGE Equivalent 1 gal = 0.88 1 gal = 1.00 1 gal = 0.93 DGE 1 lb. = 0.40 1 kWh = 0.027 (GGE or DGE) DGE DGE B20 DGE DGE 1 gal = 1.11 GGE 1 kg = 1 GGE 1 gal = 0.99 DGE 1 kg = 0.9 DGE Energy 1 gallon of 1 gallon of 1 gallon of B100 1 gallon of 5.66 lb., or 5.37 lb.
[Show full text]
14. Diesel Fuel Standard and Compliance Program
California’s Diesel Fuel Program November 29, 2018 1 Oil & Gas and GHG Mitigation Branch California Air Resources Board (CARB) 2 California Diesel Fuel Requirements ÁSTM D975, Standard Specification for Diesel Fuel Oils (enforced by the California Department of Agriculture’s Division of Measurement Standards) ´The California Diesel Fuel Regulations ´13 CCR 2281, Sulfur Content of Diesel Fuel ´13 CCR 2282, Aromatic Hydrocarbon Content of Diesel Fuel ´13 CCR 2293, et seq., Commercialization of Alternative Diesel Fuel 3 ASTM D975 - 2018, Standard Specification for Diesel Fuel Oils, Grade No. 2-D, S15 ´Flash Point, minimum, 52 °C (126 °F) ´Kinematic Viscosity at 40 °C, 1.9 - 4.1 mm2/s Ćetane Number, minimum, 40 Ćetane Index, minimum, or Aromaticity, maximum, 40 or 35 percent by volume ´Lubricity, High-Frequency Reciprocating Rig (HFRR), at 60 °C, maximum, 520 microns Ćonductivity, minimum, 25 pS/m (10-12 ohm-1m-1) 4 13 CCR 2281, Sulfur Content of Diesel Fuel ´Sulfur content maximum of 15 ppmw (mg/kg) Ápplicable to every gallon of vehicular and non-vehicular diesel fuel sold or supplied in California Énforced at all points of storage and distribution in California, from production or importation to dispensing 13 CCR 2282, Aromatic Content of 5 Diesel Fuel Áromatic hydrocarbon (AHC) content maximum of 10 percent by volume, or Ćertified emission-equivalent formulation established by engine emission testing, or ´Designated equivalent limits: ÁHC content, maximum, 21.0 percent by weight ´Polycyclic aromatic hydrocarbon (PAH) content,
[Show full text]
Waste Motor Oil (WMO) to Diesel Fuel Project Blaine M
Southern Illinois University Carbondale OpenSIUC Presentations Department of Automotive Technology 3-7-2019 Waste Motor Oil (WMO) to Diesel Fuel Project Blaine M. Heisner Southern Illinois University Carbondale, [email protected] Follow this and additional works at: https://opensiuc.lib.siu.edu/auto_pres PowerPoint slides from a technical presentation at the Illinois College Automotive Instructors Association Spring 2019 conference. Recommended Citation Heisner, Blaine M. "Waste Motor Oil (WMO) to Diesel Fuel Project." (Mar 2019). This Article is brought to you for free and open access by the Department of Automotive Technology at OpenSIUC. It has been accepted for inclusion in Presentations by an authorized administrator of OpenSIUC. For more information, please contact [email protected]. Waste Motor Oil (WMO) to Diesel Fuel Project -Update Spring 2019- SIUC Automotive Technology Department Blaine Heisner AJ McNay Jake Lichter Colton Karas Ryan Mukherjee WMO? (Waste Motor Oil!) • What is in WMO? • Total amount of WMO generated • Petroleum mainly… • 1.3B gallons annually in U.S. • Crankcase oil, transmission fluid, • Only 60% of oil sold is collected power steering fluid, brake fluid, axle grease, gear oil, compressor oil • However… • What happens to WMO • Dumped • Metal, dirt, leaves, additives, coolant, brake clean, solvent, dead • Burned in open fires (brush piles) animals, fuel, chew spit, water, • Collected with a fee (or payment) benzene, etc… • Dropped off at a collection area • Industrial burners (energy gen.) • WMO Generators • Re-refined into new products • Repair shops, dealerships, public and • Lube, fuel, asphalt, etc… private fleets, personal residences, schools, trucking companies, farms Cost/Value of WMO • “The recent softness in crude oil markets, along with the associated declines in fuel pricing, have decreased the value of our recycled fuel oil (RFO) and other products.
[Show full text]
What's the Difference Between Gasoline, Kerosene, Diesel, Etc?
What's the difference between gasoline, kerosene, diesel, etc? Browse the article What's the difference between gasoline, kerosene, diesel, etc? The "crude oil" pumped out of the ground is a black liquid called petroleum. This liquid contains aliphatic hydrocarbons, or hydrocarbons composed of nothing but hydrogen and carbon. The carbon atoms link together in chains of different lengths. It turns out that hydrocarbon molecules of different lengths have different properties and behaviors. For example, a chain with just one carbon atom in it (CH4) is the lightest chain, known as methane. Methane is a gas so light that it floats like helium. As the chains get longer, they get heavier. The first four chains -- CH4 (methane), C2H6 (ethane), C3H8 (propane) and C4H10 (butane) -- are all gases, and they boil at -161, -88, -46 and -1 degrees F, respectively (-107, -67, -43 and -18 degrees C). The chains up through C18H32 or so are all liquids at room temperature, and the chains above C19 are all solids at room temperature. So what's the real chemical difference between gasoline, kerosene and diesel? It has to do with their boiling points. Carbon Chains in Petroleum Products The different chain lengths have progressively higher boiling points, so they can be separated out by distillation. This is what happens in an oil refinery -- crude oil is heated and the different chains are pulled out by their vaporization temperatures. (See How Oil Refining Works for details.) The chains in the C5, C6 and C7 range are all very light, easily vaporized, clear liquids called naphthas.
[Show full text]
AP-42, Vol. I, 3.3: Gasoline and Diesel Industrial Engines
3.3 Gasoline And Diesel Industrial Engines 3.3.1 General The engine category addressed by this section covers a wide variety of industrial applications of both gasoline and diesel internal combustion (IC) engines such as aerial lifts, fork lifts, mobile refrigeration units, generators, pumps, industrial sweepers/scrubbers, material handling equipment (such as conveyors), and portable well-drilling equipment. The three primary fuels for reciprocating IC engines are gasoline, diesel fuel oil (No.2), and natural gas. Gasoline is used primarily for mobile and portable engines. Diesel fuel oil is the most versatile fuel and is used in IC engines of all sizes. The rated power of these engines covers a rather substantial range, up to 250 horsepower (hp) for gasoline engines and up to 600 hp for diesel engines. (Diesel engines greater than 600 hp are covered in Section 3.4, "Large Stationary Diesel And All Stationary Dual-fuel Engines".) Understandably, substantial differences in engine duty cycles exist. It was necessary, therefore, to make reasonable assumptions concerning usage in order to formulate some of the emission factors. 3.3.2 Process Description All reciprocating IC engines operate by the same basic process. A combustible mixture is first compressed in a small volume between the head of a piston and its surrounding cylinder. The mixture is then ignited, and the resulting high-pressure products of combustion push the piston through the cylinder. This movement is converted from linear to rotary motion by a crankshaft. The piston returns, pushing out exhaust gases, and the cycle is repeated. There are 2 methods used for stationary reciprocating IC engines: compression ignition (CI) and spark ignition (SI).
[Show full text]
Comparison of Modern CNG, Diesel and Diesel Hybrid-Electric Transit Buses: Efficiency & Environmental Performance
Comparison of Modern CNG, Diesel and Diesel Hybrid-Electric Transit Buses: Efficiency & Environmental Performance CONCORD, MA - WA SHINGTON, DC 47 JUNCTION SQUA RE DRIVE CONCORD, MA 01742 978-405-1275 www.mjbradley.com Comparison of Modern CNG, Diesel, and Diesel Hybrid-Electric Transit Buses Table of Contents Executive Summary......................................................................................................................... 2 1 Data Sources and Methodology .............................................................................................. 5 2 Results.................................................................................................................................... 10 2.1 Fuel Economy ................................................................................................................. 10 2.2 Emissions ........................................................................................................................ 12 2.1.1 Criteria Pollutants ................................................................................................... 12 2.1.2 Green House Gases ................................................................................................. 15 Appendix A Tabular Summary of Fuel Economy & Emissions List of Figures Figure 1 Altoona Measured Fuel Economy – New Flyer Buses .................................................... 10 Figure 2 Altoona Measured Fuel Economy – Daimler Buses ........................................................ 11 Figure 3
[Show full text]
An Overview of Biodiesel and Petroleum Diesel Life Cycles
An Overview of Biodiesel and Petroleum Diesel Life Cycles A Joint Study Sponsored by: U.S. Department of Agriculture and U.S. Department of Energy May 1998 NOTICE This report was prepared as an account of work sponsored by an agency of the United States government. Neither the United States government nor any agency thereof, nor any of their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States government or any agency thereof. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States government or any agency thereof. Available electronically at http://www.doe.gov/bridge Available for a processing fee to U.S. Department of Energy and its contractors, in paper, from: U.S. Department of Energy Office of Scientific and Technical Information P.O. Box 62 Oak Ridge, TN 37831-0062 phone: 865.576.8401 fax: 865.576.5728 email: [email protected] Available for sale to the public, in paper, from: U.S. Department of Commerce National Technical Information Service 5285 Port Royal Road Springfield, VA 22161 phone: 800.553.6847 fax: 703.605.6900 email: [email protected] online ordering: http://www.ntis.gov/ordering.htm Printed on paper containing at least 50% wastepaper, including 20% postconsumer waste NREL/TP-580-24772 An Overview of Biodiesel and Petroleum Diesel Life Cycles John Sheehan Vince Camobreco James Duffield Michael Graboski Housein Shapouri National Renewable Energy Laboratory 1617 Cole Boulevard Golden, Colorado 80401-3393 A national laboratory of the U.S.
[Show full text]
Biodiesel--Clean, Green Diesel Fuel
Biodiesel–Clean, Green Diesel Fuel Great Fleet Fuel Gaining Popularity Rapidly Natural, renewable resources such as vegetable oils and recycled restaurant greases can be chemically transformed into clean-burning biodiesel fuels. As its name implies, biodiesel is like diesel fuel except that it’s made from farm products. It’s also safe for the environment, biodegradable, and produces significantly less air pollution than diesel fuel. It even smells better than diesel fuel—it smells like french fries, donuts, or barbecue. Can I use biodiesel in my people use biodiesel in marine environments to vehicle, generator, or boat? reduce the impact on wildlife and hatcheries. You can use 100% pure biodiesel where you use diesel fuel, except Does biodiesel reduce air pollution? during cold weather. During cold Very much so. Biodiesel reduces nearly all weather, biodiesel thickens more forms of air pollution compared to petroluem than diesel fuel and special systems diesel. Most importantly, biodiesel reduces air are required. Equipment made before toxics and cancer-causing compounds. Using 1993 may have rubber seals in fuel pure biodiesel can reduce the cancer risks pumps and fuel systems that could by 94%; B20 will reduce that risk by as much fail if 100% biodiesel is used. You as 27%. Biodiesel contains 0-24 ppm sulfur, National Biodiesel Board, NREL/PIX 07624 should replace these seals with non- significantly reducing sulfur dioxide emissions. rubber seals if you use 100% biodiesel. B20 has 20% of the benefits of pure biodiesel. You can use a blend of 20% or 35% biodiesel B20 can also reduce the soot and smell of WHAT WILL BIODIESEL with any diesel fuel even in old engines with diesel exhaust.
[Show full text]
DIESEL ENGINES Protecting Your Heavy Duty Engine with TURBO POWER
® COMPLETE CARE FOR DIESEL ENGINES Protecting your heavy duty engine with TURBO POWER Montréal Toronto Edmonton Vancouver www.recochem.com H4T 1P4 L9T 5G7 T9E 7X6 V3C 4P2 www.coolantexperts.com When it comes to improving fuel economy and getting better mileage, engine maintenance is vital. TURBO POWER coolants and engine care products help provide premium engine protection while simplifying the maintenance program for modern diesel engines. HD DIESEL EXL – DIESEL COOLANT EXTENDER Diesel Coolant Extender is designed to maximize coolant life between drain intervals by replenishing coolant inhibitors that guard against rust and corrosion. The advantage of using an extender is that it boosts nitrite levels for protection against liner pitting caused by cavitation. Performance Features & Benefits: • Extends coolant in-field service life up to 960,000 km, 12,000 hours or 6 years • Provides nitrite boost for protection against liner pitting • Replenishes corrosion inhibitors DIESEL ENGINE CARE PRODUCTS • Specifically for use in HD Diesel Extended Life Antifreeze/Coolant • Phosphate Free APPLICATION: Use only with extended life coolants meeting the performance requirements of ASTM D6210. The coolant extender should be added at 480,000 km or 6,000 hours of operation, whichever occurs first. Note: Do not use for initial fill or as a coolant top-off. Not for treatment of traditional type coolants. Treat rate for Diesel Coolant Extender COOLING SYSTEM CAPACITY EXTENDER VOLUME TO ADD Litres Gallons Bottle quantity 20 - 30 5 - 8 1 30 - 45 8 - 12 1 ½ 45 - 60 12 - 16 2 60 - 75 16 - 20 2 ½ Diesel Coolant Extender 75 - 90 20 - 24 3 90 - 120 24 - 32 4 Every 480,000 km 960,000 km or 6 years Item # Container Size Case Pack UPC SCC 16-571 946 mL bottle 6 0-56438-16571-2 600-56438-16571-4 2 Recochem Inc.
[Show full text]
Hydrogen—An Alternative Fuel for Automotive Diesel Engines Used in Transportation
sustainability Article Hydrogen—An Alternative Fuel for Automotive Diesel Engines Used in Transportation Alexandru Cernat 1, Constantin Pana 1, Niculae Negurescu 1, Gheorghe Lazaroiu 2,*, Cristian Nutu 1 and Dinu Fuiorescu 1 1 Department of Thermotechnics, Engines, Thermal and Frigorific Equipment, University Politehnica of Bucharest, 060042 Bucharest, Romania; [email protected] (A.C.); [email protected] (C.P.); [email protected] (N.N.); [email protected] (C.N.); [email protected] (D.F.) 2 Department of Energy Generation and Use, University Politehnica of Bucharest, 060042 Bucharest, Romania * Correspondence: [email protected]; Tel.: +40-0722-808-709 Received: 13 October 2020; Accepted: 5 November 2020; Published: 10 November 2020 Abstract: Considering the current environmental restrictions, particularly those imposed on fossil fuel exploitation, hydrogen stands out as a very promising alternative for the power and transportation sectors. This paper investigates the effects of the employment of hydrogen in a K9K automotive 1 diesel engine. Experiments were conducted at a speed of 2000 min− with various engine load levels of 40%, 55%, 70%, and 85%; several quantities were monitored to evaluate the performance with hydrogen use in terms of brake-specific energetic consumption (BSEC), fuel economy, maximum pressure, and heat-release characteristics. It was found that at 55% engine load, the engine efficiency increased by 5.3% with hydrogen addition, achieving a diesel fuel economy of 1.32 kg/h. The rate of increase of the peak pressure and maximum pressure started to increase as a consequence of the higher fuel quantity that burned in the premixed combustion phase, while still remaining within reliable operational limits.
[Show full text]
Biofuel Requirements in Diesel and Heating
Office of the Chief Economist Office of Energy Policy and New Uses Biofuel in diesel and heating oil Tony Radich Agricultural Economist [email protected] EIA State Heating Oil and Propane Program Workshop Washington, DC July 13, 2016 Office of the Chief Economist Office of Energy Policy and New Uses Agenda •What is distillate fuel and which biofuels are compatible? •Federal, state, and local policies on biofuels in distillate fuel •Economics of biodiesel production, including the effects of biofuels policies OfficeDistillate of the and Chief heating Economist oil overlap but not perfectlyOffice of Energy Policy and New Uses • Distillate fuel consists of No. 2 diesel fuel and No. 2 heating oil – Kerosene (No. 1 fuel oil) is a separate product in EIA data – Blends easily with No. 2 distillate, often used to improve cold flow • “Heating oil” can also refer to grades heavier than No. 2 – No. 6 heating oil is classified as residual fuel by EIA – No. 4 heating oil is a blend of No. 2 and residual fuel • Two trends in heating oil – Reduction in sulfur levels – Addition of biofuels • Diesel and heating oil can contain biodiesel and renewable diesel – Both produced from vegetable oil or animal fat but different production processes – ASTM standards for diesel fuel and heating oil allow 5% biodiesel in fungible products – Blends of up to 20% biodiesel are supported by many engine and burner manufacturers – Renewable diesel can be used in any proportion in diesel or heating oil • Cellulosic diesel and cellulosic heating oil are under development – Both are produced by pyrolysis of wood fiber; more upgrading of pyrolysis oil is required for diesel use OfficeU.S.
[Show full text]
The Cold, Hard Facts on Diesel Fuel Gelling Diesel Fuel Gelling Is a Common Problem That Often Impacts Engine Performance and Results in Downtime
WHITE PAPER Automotive Off Road Heavy Duty Power Gen The Cold, Hard Facts on Diesel Fuel Gelling Diesel fuel gelling is a common problem that often impacts engine performance and results in downtime. Although it can occur year-round, it is most prevalent in winter, with the effects of cold temperatures on #2 diesel. Diesel fuel gelling causes several performance-related issues, including significant engine power loss, and difficulty starting or keeping the engine running. Sometimes blamed on the fuel filter, diesel fuel gelling plugs the filter, preventing fuel from flowing properly. This restricted flow may keep the engine from starting. Even if it does start, it might not stay running for long. The Cause of Fuel Gelling Gelling problems are typically caused by the effects of temperature on paraffin, a component of diesel fuel. Paraffin waxes are combustible, adding power when burned in the engine. However, when temperatures drop, diesel will start to solidify. The phases of fuel gelling include cloud point, pour point and cold-filter plug point. Cloud Point Cloud point is the temperature at which paraffin begins to form cloudy wax crystals. When the fuel temperature reaches cloud point, the wax crystals begin to form. Typically, cloud point temperatures range from -18°F to 20°F (-28°C to -7°C). Depending on fuel quality, they can be as high as 40°F (4.4°C). 1 WHITE PAPER Cold-Filter Plug Point The point where the filter plugs and operations cease is the cold-filter plug point (CFPP). CFPP and cloud point depend on fuel grade, fuel quality and temperature.
[Show full text]