Crude Oil Processing
-Crude Oil Crude oil is a mixture of very complex then it needs to be further processed to be used. Figure
9.5 is where the processing of crude oil into petroleum fractions, such
as those in retail outlets through distillation (distillation) rise.
1. Petroleum Refining
Oil is mined is still a crude oil can not be used. To
be used as a fuel and other applications, crude oil needs to be
processed in oil refineries by distillation story with fractionation
techniques. The basic principle of distillation boiling point rise is the difference between crude oil fractions. If the difference in boiling points is not much different from the distillation can not be applied (See Table 9.1).
Petroleum refinery at night
Figure 9.5 Distillation of petroleum at night
Hydrocarbons which has the lowest boiling point will separate first, followed by hydrocarbon that has a higher boiling point. So, gradually, hydrocarbons can be separated from the mixture of crude oil.
Table 9.1 Crude Oil Distillation Process Being Factions PetroleumThe amount of distillate Atom C Applications
Gas
Gasoline
Kerosene
Diesel
Lubricants
Residue1 - 45-1011 - 1516-20
21-40
> 50Gaseous
fuels, plastics, material kimiaBahan liquid fuel (gasoline), Materials
kimiaBahan aircraft fuel, stove fuel, diesel fuel kimiaBahan materials,
chemicals
Lubricants, candles, night (wax)
Asphalt, an anti-leak (waterproof)
Fraction of crude oil refining is the first out of the hydrocarbon compounds with low molecular mass, less than 70 sma. Faction is packaged in pressurized cylinders until melted. The results of treatment in this fraction is known as LPG (liquid petroleum gas). After all fractions teruapkan, the next fraction is the fraction of gasoline coming out. Temperatures were applied to remove this fraction ranged from 40-200 ° C. At
these temperatures, hydrocarbons ranging from pentane to octane
excluded from the distillation (see boiling point of pentane to octane).
At room temperature, the form of the liquid fraction is colorless to slightly yellow and volatile. So on until all the fractions can be separated in stages based on different boiling points. The results of the fractionation is leaving residue called solid black asphalt.
2. Petroleum cracking
To
meet the needs of a particular product, long-chain hydrocarbons that
can be broken down into shorter through the process of cracking
(cracking). In contrast, short-chain hydrocarbons can be combined into longer chain (reforming). To
increase the fraction of gasoline can be done by breaking long-chain
hydrocarbons into fractions (C5-C9) through thermal cracking. Cracking process is carried out at a temperature of 500 ° C and a pressure of 25 atm. Saturated
straight chain hydrocarbons such as kerosene (C12H26) can direngkahkan
into two shorter fragments into compounds hexane (C6H14) and hexene
(C6H12).C12H26 (l) → C6H14 (l) + C6H12 (l)
The presence of hexene (alkenes) from the results of thermal cracking to increase the octane number of 10 units. However, the products of the cracking process is generally less stable when stored for a long time. Because
products are generally less stable thermally cracking the thermal
cracking techniques replaced by catalytic cracking catalyst performed at
high temperature and high pressure. Catalytic
cracking, such as long-chain alkanes is reacted with a mixture of
silicon (SiO2) and alumina (Al2O3), plus hydrogen gas or a particular
catalyst. In reforming, small molecules are combined into molecules is greater. This is done to increase the gasoline product. For example, butane and propane reacted to form heptane. The equation:C4H10 (g) + C3H8 (g) → C7H16 (l) + H2 (g)
3. Oil Octane Numbers
Important fraction of petroleum is gasoline. Gasoline is used as a motor vehicle fuel (please see Figure 9.6). Approximately 10% of product distillate fractions of crude oil is gasoline with unbranched chains. In the high-pressure engine, burning straight gasoline chain uneven and shock waves that cause the engine knock occurs. If you leave this knock can lead to engine heat and can be easily damaged. Size distribution burning gasoline to prevent knock used the term octane. Octane number is the number ratio between the value of the gasoline knock knock value of the standard hydrocarbon mixture. Mixture of hydrocarbons that is used as an octane number is a standard n-heptane and 2,2,4-trimethylpentanes (isooctane). Octane to mix 87% isooctane and 13% n-heptane was set at 87 units. There are three methods of measuring octane number, namely:a. measurements on high-speed and temperature, the results are expressed as the octane number of the machine;b. measurements at moderate speeds, the result is called the research octane number;c. pure hydrocarbon measurement, called the road octane index.Some pure hydrocarbons are shown in Table 9.2.Table 9.2 Numbers Octane HydrocarbonHydrocarbons Octane Road Index Numbersn-heptane 02-metilheptana 23n-hexane 252-metilheksana 441-heptena 60n-pentane 621-pentena 841-butene 91Cyclohexane 972,2,4-trimethyl pentane 100
The higher the octane value, resistance to knock the stronger (no knock). It is owned by 2,2,4-trimethylpentanes (isooctane), whereas n-heptane has the highest knock. Because
2,2,4-trimethylpentanes has the highest octane number (100) and the
lowest n-heptane (0) then mix the two compounds used as the standard for
measuring octane. To
obtain the highest octane number, rather than by the composition of the
mixture is optimized also added an additive, such as tetraetillead
(TEL) or Pb (C2H5) 4. The addition of 6 mL TEL into one gallon of gasoline to increase octane number of 15-20 units. Gasoline has been added TEL with octane number 80 is called premium gasoline. Another method to increase the octane number is a thermal reforming. This technique is used to convert straight-chain alkanes into branched alkanes and cycloalkanes. This technique is carried out at high temperature (500-600 ° C) and high pressure (25-50 atm).
4. Using Oil As Fuel
Most of the petroleum products used as fuel, good fuel in domestic, industrial and vehicle fuel. Fuel oil is used in household kerosene and LPG. Kerosene from kerosene fractions, whereas LPG from gas fraction. Besides being used as stove fuel, petroleum is also used as an automotive fuel. Petroleum products used as motor vehicle fuel is gasoline and diesel. Gasoline contains about hundreds of types of hydrocarbons with carbon chain number between 5 and 10. Diesel oil used as a fuel for diesel vehicles. There are three types of gasoline on the market, the premium, Pertamax and Pertamax plus. What is the difference between the premium and pertamax? Both types are distinguished from fuel octane number. Octane number states the number of beats in the resulting gasoline engine. The greater the octane number, the less the amount of knock. That is, the greater the octane number, the better the quality of gasoline. Octane value can be calculated using the following formula. Octane Numbers = (% isooctane × 100) + (% n-heptane × 100) Pertamax has an octane number greater than the premium. Pertamax octane number is 94, while the premium is only 88. Octane
number can be improved through a variety of ways, including by adding
TEL (tetra ethyl lead), MTBE (methyl tertiary ether buthyl), and HOMC
(high octane mogas component). The addition of these substances can increase the octane number between 3-5 points.
5. Using Oil As Raw Materials Petrochemical Industry
In addition to fuel, oil can also be used as a base for the manufacture of other products. For example, plastics, explosives, detergents, nylon, urea, and methanol. The products of petroleum are called petrochemicals. A
petrochemical industry can be made of a compound of alkenes (olefins),
benzene and its derivatives (aromatic), and synthetic gas. The raw material for the petrochemical industry are produced from fractions of petroleum processing results. For more details, watch the following table.
Table 7.2 Raw Materials and Products Produced Petrochemical IndustryExample Petrochemical Raw Materials Petroleum Products Origin Faction GeneratedAlkene compounds polythene Ethene gas fraction, ethanol, PolyvinylchloridePropylene gas fraction Polypropylene2-methyl propylene gas fraction MTBEBenzene and its derivatives (aromatic) benzene naphtha fractions detergents, explosivesSynthetic Gas Methane Methanol gas fraction, urea
6. Impact Petroleum Product Combustion
Burning fuel can last two ways are perfect and imperfect combustion. Complete combustion produces considerable energy compared to incomplete combustion. But the resulting CO2 gas can cause the greenhouse effect (greenhouse effect). Combustion reaction:
CH4 (g) + 2 O2 (g) → CO2 (g) + 2 H2O (g) + Energy
CO2
is a colorless gas, odorless, water-soluble, short-wave sunlight
forward but resist the reflection of solar energy wavelengths (infrared
light). If
the number exceeds the threshold (greater than 330 ppm), it will cause
shortness of breath and forming a "sheath" in the atmosphere. CO2 has the ability to withstand long-wave solar energy so that the heat can not be released into space. Events trapping sunlight by CO2 gas is called the greenhouse effect. As a result, the earth's temperature to rise or better known as global warming. Just imagine if the temperature of the earth is up, what happens? Is not ice at both poles of the earth will melt? Get imagine what impact the next?
Incomplete
combustion of fossil fuels will produce soot that can contaminate
equipment such as home appliances, engine, exhaust, and others. Thus accelerating damage to the device. It also produces CO gas that can cause poisoning. Imperfect combustion reaction:
2 CH4 (g) + 3 O2 (g) → 2 CO (g) + 4 H2O (g) + Energy
CO gas is a colorless gas, odorless, tasteless and soluble in water. CO
gas has a higher holding capacity than oxygen to hemoglobin, so that
human inhalation causes the blood contains more CO than oxygen. The symptoms of CO poisoning are if breathlessness, decreased memory, decreased visual acuity, and a tired heart. The body will lack of oxygen supply, as a result of weakness, fainting, and even lead to death. Reaction:
CO (g) + Hb (aq) → HbCO (aq)
Burning
fossil fuels also produces other pollutants such as sulfur oxides (SO2
and SO3), nitrogen oxides (NO and NO2), and dust particles. These gases if the entry in the air can cause acid rain. Gas SO2 is a colorless gas but the smell was overpowering and soluble in water. CO2 can be oppressive, painful eyes, and turn off the leaves because it is toxic to the chlorophyll. Gas SO2 and SO3 in the damp air can react with water vapor to form acid. Her reaction:
SO2 (g) + H2O (l) → H2SO3 (aq)
Reacts with O2 to form SO3 then reacts with water vapor to form sulfuric acid. Her reaction:
2 SO2 (g) + O2 (g) → 2 SO3 (g)
SO3 (g) + H2O (l) → H2SO4 (aq)
Sulfuric acid in the air humid rain water-soluble so that rain water is acidic, also known as acid rain. Acid
rain can cause plants and animals that do not survive in the acidic
conditions will die, and furniture from corroded metal. In addition to SO2 and SO3 gas, NO and NO2 gas can also cause acid rain. NO gas is a colorless gas but toxic. NO gas can react with O2 produces NO2. Her reaction:
2 NO (g) + O2 (g) → 2 NO2 (g)
NO2 is red brown, foul-smelling, easily soluble in water, and toxic. NO2 can cause cancer because it is carcinogenic. These gases also have the potential to be a greenhouse gas that can cause the greenhouse effect. NO and NO2 gas is also a catalyst in the decomposition of ozone in the stratosphere. Given the impact of oil and limited mineral resources in the world, so from now sought alternative energy such as:
licol / cleaned coal (source-News Special Bulletin for Citizens August 2006);
biodiesel from castor oil (source Junior-Suara Merdeka October 1, 2006);
biodiesel (ethanol from sugar cane, corn oil, palm oil);
biogas from compost / manure;
nuclear power;
geothermal energy / geothermal;
power falls;
sea wave power;
wind power;
solar power.
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