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Petroleum diesel
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Petroleum diesel

离岸价格

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国:

Malaysia

モデル番号:

-

离岸价格:

( Negotiable ) Get Latest Price

ロケーション:

-

最低注文量の価格:

-

最低注文量:

-

パッケージの詳細:

-

納期:

-

供給能力:

-

支払いタイプ:

T/T, L/C

製品グループ :

-

今すぐお問い合わせください

savinatrading

Malaysia

無料会員

連絡先担当者 nada

kepong, kualalumpur, malaysia

今すぐお問い合わせください

製品仕様

  • Type: Jet A-1
  • D2 or Not: Is D2

タイトルまたは説明

Petroleum diesel, also called petro diesel or fossil diesel is the most common type of diesel
fuel. It is produced from the fractional distillation of crude oilbetween **0 °C (**2 °F) and
**0 °C (**2 °F) at atmospheric, resulting in a mixture of carbon chains that typically contain
between 8 and *1 carbonatoms per molecule.
Synthetic diesel
Synthetic diesel can be produced from any carbonaceous material, including biomass, biogas,
natural gas, coal and many others. The raw material is gasified into synthesis gas, which after
purification is converted by the FischerTropsch process to a synthetic diesel.[9]
The process is typically referred to as biomass-to-liquid (BTL), gas-to-liquid (GTL) or coal-toliquid
(CTL), depending on the raw material used.
Paraffinic synthetic diesel generally has a near-zero content of sulfur and very low aromatics
content, reducing unregulated emissions of toxic hydrocarbons, nitrous oxides and particulate
matter (PM).

Biodiesel
Biodiesel made from soybean oil
Fatty-acid methyl ester (FAME), more widely known as biodiesel, is obtained from vegetable
oil or animal fats (biolipids) which have been transesterified with methanol. It can be produced
from many types of oils, the most common being rapeseed oil (rapeseed methyl ester, RME) in
Europe and soybean oil (soy methyl ester, SME) in the USA. Methanol can also be replaced with
ethanol for the transesterification process, which results in the production of ethyl esters. The
transesterification processes use catalysts, such as sodium or potassium hydroxide, to convert
vegetable oil and methanol into FAME and the undesirable byproducts glycerin and water, which
will need to be removed from the fuel along with methanol traces. FAME can be used pure
(B**0) in engines where the manufacturer approves such use, but it is more often used as a mix
with diesel, BXX where XX is the biodiesel content in percent. FAME as a fuel is regulated
under DIN EN ****4 and ASTM D***1]
FAME has a lower energy content than diesel due to its oxygen content, and as a result,
performance and fuel consumption can be affected. It also can have higher levels of NOx
emissions, possibly even exceeding the legal limit. FAME also has lower oxidation stability than diesel, and it offers favorable conditions for bacterial growth, so applications which have a low
fuel turnover should not use FAME. The loss in power when using pure biodiesel is 5 to 7%.
Fuel equipment manufacturers (FIE) have raised several concerns regarding FAME fuels: free
methanol, dissolved and free water, free glycerin, mono and diglycerides, free fatty acids, total
solid impurity levels, alkaline metal compounds in solution and oxidation and thermal stability.
They have also identified FAME as being the cause of the following problems: corrosion of fuel
injection components, low-pressure fuel system blockage, increased dilution
and polymerization of engine sump oil, pump seizures due to high fuel viscosity at low
temperature, increased injection pressure, elastomeric seal failures and fuel injector spray
blockage.
Unsaturated fatty acids are the source for the lower oxidation stability; they react with oxygen
and form peroxides and result in degradation byproducts, which can cause sludge and lacquer in
the fuel system.
As FAME contains low levels of sulfur, the emissions of sulfur oxides and sulfates, major
components of acid rain, are low. Use of biodiesel also results in reductions of unburned
hydrocarbons, carbon monoxide (CO), and particulate matter. CO emissions using biodiesel are
substantially reduced, on the order of *0% compared to most petro diesel fuels. The exhaust
emissions of particulate matter from biodiesel have been found to be *0 percent lower than
overall particulate matter emissions from petro diesel. The exhaust emissions of total
hydrocarbons (a contributing factor in the localized formation of smog and ozone) are up to *3
percent lower for biodiesel than diesel fuel.
Biodiesel also may reduce health risks associated with petroleum diesel. Biodiesel emissions
showed decreased levels of polycyclic aromatic hydrocarbon (PAH) and nitrated PAH
compounds, which have been identified as potential cancer-causing compounds. In recent
testing, PAH compounds were reduced by *5 to *5 percent, except for benz(a)anthracene, which
was reduced by roughly *0 percent. Targeted nPAH compounds were also reduced dramatically
with biodiesel fuel, with *-nitrofluorene and *-nitropyrene reduced by *0 percent, and the rest of
the nPAH compounds reduced to only trace levels.

3.3 Hydrogenated oils and fats
This category of diesel fuels involves converting the triglycerides in vegetable oil and animal fats
into alkenes by refining and hydrogenation, such as H-Bio. The produced fuel has many
properties that are similar to synthetic diesel, and are free from the many disadvantages of
FAME.
3.4 DME
Dimethyl ether, DME, is a synthetic, gaseous diesel fuel that results in clean combustion with
very little soot and reduced NOx emissions.
3.5 Storage
In the US, diesel is recommended to be stored in a yellow container to differentiate it from
kerosene and gasoline, which are typically kept in blue and red containers, respectively. In the
UK, diesel is normally stored in a black container, to differentiate it from unleaded petrol (which
is commonly stored in a green container) and leaded petrol (which is stored in a red container).

国: Malaysia
モデル番号: -
离岸价格: ( Negotiable ) Get Latest Price
ロケーション: -
最低注文量の価格: -
最低注文量: -
パッケージの詳細: -
納期: -
供給能力: -
支払いタイプ: T/T, L/C
製品グループ : -

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