CHEM
UNIT- 6FUELS Q1) Define fuels and classify them?A1) A fuel is a substance that contains carbon and hydrogen undergoes combustion in presence of oxygen to gives large amount of energy. Fuel + O2 CO2 + H2O + EnergyFuels: - A fuel is the substance which on combustion produces a large amount of heat.Chemical fuels are classified on the basis of occurrence into: -Primary (natural) Secondary (derived) types / manmade. The secondary fuels are obtained from primary fuel by processing or they are manmade. e.g.: - charcoal is obtained from wood by partial combustion of wood, ethyl alcohol is obtained by fermentation of carbohydrates. Both the primary and secondary fuels are further classified on the basis of physical state into solid liquid and gaseous fuels.
Q2) What are the characteristics of a good fuel?A2) Biodiesel can be used as a good fuel for diesel engine but generally it is used as its 20 percent mixture with diesel.Biodiesel is cheaper It has high c.v of about 40 kg / gm It is regenerative and environmentally friendly. It does not give out particulate and CO pollutants. 5. It has certain extent of lubricity 6. It uses provided good market to vegetable oils and reduces our dependence on biodiesel on foreign countries, saving currency.7. It is clean to use biodiesel in diesel engine.3. Define Calorific value and HCV and LCV?Calorific value: Efficiency of combustible fuels can be measured in terms of their calorific value. It is the heat evolved on combustion of a unit quantity of fuel.Types of calorific value (Higher and lower)Higher Calorific Value Gross calorific value of a fuel can be defined as the total amount of heat obtained on complete combustion of unit mass of a solid or liquid fuel or unit volume of a gaseous fuel (S T P) and on cooling the products of combustion to 15-degree c. The gross calorific value is also called as higher calorific value.The G.V.C is of only theoretical importance because in actual practice we do not have any provision of cooling the products of combustion during combustion of fuel in an engine, furnace or any other fuel burning device.Lower Calorific Value: Net calorific value is defined as the amount of heat obtained practically on complete combustion of unit mass of solid or liquid fuel or unit mass of solid or liquid fuel or unit volume of a gaseous fuel at step and the products of combustion are allowed to escape with some heat N.C.V is also called as lower calorific value.Q3) Explain the Boy’s Calorimeter in detail?A3) Boy’s Calorimeter:Principle: - The gaseous fuel is burnt at a known constant rate in the calorimeter under such conditions that entire amount of heat produced is absorbed by water.This calorimeter is used to measure calorific value of gaseous fuels and highly volatile fuels.Gas burner Combustion chamber (chimney) Thermometers Insulating cover Gas burner: - There is a gas burner in which a known volume of gas is burnt at a known pressure. the gas is burnt at the rate of 3 – 4 lit. per minute. Combustion chamber (chimney): - Around the burner there Is a combustion chamber which has a copper tubing coiled inside as well as outside of its water enters from top of the outer coils, moves to bottom of chimney and then goes up through the inner coil to the exit at top.4. Thermometer: - There are two thermometers to measure temperatures of inlet water and outlet water.5. Insulating cover: -The assembly is covered with by an insulator to detach combustion chamber from atmosphere. there are three holes for exhaust gas, water inlet and condensed steam.Working: -Start burning the gas at suitable pressure and adjust the rate of water flow such that the temperature of outgoing water remains constant. Burn the gas for 5 – 10 minutes to have the steady temperatures in and around the combustion chamber. After the steady (temperature in and around the combustion chamber) conditions of outgoing. A) Volume of gas burnt at given temperature and pressure in certain time period.B) Quantity of water passed through coil during this period.C) Mass of water condensed from product gas during the period.D) The steady rise in temperature of water (t2 – t1)
Fig: Boy’s gas calorimeterCalculations: -First convert the volume of gas burnt to volume of gas at STP. let this STP volume be V . Let W = mass of cooling water used in the period of observation in Kg Let m= mass of water condensate in kg L= G.C.V OF THE FUEL Heat produced by combustion of fuel = heat absorbed by cooling water (assuming no heat loss in the steady state conditions)Vl = w (t2 – t1)L = Kcal / The mass of condensate water per m of gas will be m/v kg /m.If this water had left as steam in product gases it would have taken away heat.= *587 kcal / Therefore, NCV = GCV - *587NCV = Q4) What is Dulong’s formulae of calorific value?A4) The calorific value of a fuel can be theoretically determined by using Dulong’s formula. It is assumed that heat evolved comes from the combustion of carbon, hydrogen, and sulphur present in the fuel. The total heat evolved is equal of heat evolved by the combustion of individual constituent’s present. The calorific value of hydrogen = 34500 cal/gm. Calorific value of carbon = 8080 cal/gm Calorific value of sulphur = 2240 cal/gm.Then, Dulong’s formula is HCV =
Where, C, H, O, S are percentage fractional weight of carbon, hydrogen, oxygen and sulphur respectively obtained from the analysis of 1 gm of the fuel.
It is assumed that oxygen present in fuel combines with hydrogen to form water. 8 parts by weight of oxygen combines with one part by weight of hydrogen, to form water. So actual heating value of hydrogen is obtained by above expression.Q5) Define Petrol and refining of crude oil?A5) Petrol is a volatile flammable liquid, that consists of a mixture of hydrocarbons namely heptane, hexane and octane. They are mainly obtained from petroleum and used as a solvent and fuel for internal combustion engines. Petrol also contains additives such as antiknock compounds and corrosion inhibitors.Elemental Composition of PetroleumAlthough there is considerable variation between the ratios of organic molecules, the elemental composition of petroleum is well-defined:Carbon - 83 to 87% Hydrogen - 10 to 14% Nitrogen - 0.1 to 2% Oxygen - 0.05 to 1.5% Sulphur - 0.05 to 6.0% Metals - < 0.1% Refining of crude oilIn an oil refinery the crude oil is converted into valuable goods such as petroleum, naphtha, gasoline liquefied gas, kerosene etc. Oil refineries are usually huge, vast industrial facilities with extensive pipelines running throughout, holding fluid streams in between.Many substances are present in petroleum as a mixture, they include lubricating oil, paraffin wax, diesel, gas, wax etc. Therefore, it becomes important to separate these substances and use them separately for different purposes, hence they are refined and the process of separation various constituents of petroleum is called petroleum refining. It involves a three-step process and usually performed in oil refineries. The first step is distillation process, that separates the crude oil from various components. The lighter constituents rise up as vapour or remain as a liquid while the heavier constituents remain at the bottom. In the next step the heavier constituents are converted into gas, gasoline and diesel. The last step is to remove the impurities in the constituents and obtain the products in pure form. The most common method of separating components into their constituents is by fractional distillation when due to boiling differences in temperature the crude oil heat up, spray and then condense the vapour. New methods, in a method called conversion, use Chemical processing on certain fractions to produce others. For example, chemical processing may split lengthier chains into shorter chains. This allows a refinery to convert diesel fuel into gasoline, depending on the gasoline demand.
Crude Oil DistillationIn industries, the process of refining is usually called the downstream sector, and the raw crude oil output is called the downstream sector the word downstream is synonymous with the idea of sending oil down the supply chain of a commodity to an oil refinery to be refined into petrol. The downstream also indicates the sale of petrol and its products to other companies and government and private sectors. Q6) State the Advantages and Disadvantages of using Biofuels?A6) Advantages:As Biodiesel is a renewable energy source, they will not vanish away like many petroleum products, since they are made from vegetable oils they can be produced whenever necessary and they cause less pollution. One of the distinct advantages of using biodiesel is they can be used in existing diesel engines with no or very less modifications and can form the primary transport energy source. Usage of biodiesel helps to reduce, burning of fossil fuels as they cause pollution and global warming. The biofuel serves as an alternate form of fuel, thus reduce our dependence on foreign supplies of oil, as biofuels are produced from domestic energy crops. 305 fuel economy is achieved by vehicles that run on biodiesel than the one that use petrol-based engines, which means it makes fewer trips to gas stations and runs more miles per gallon. Disadvantages:Biodiesels are produced from crops, most of the crops are treated with fertilizers that can affect the environment and cause pollution, excess use of fertilizers cause soil erosion. As they are produced from crops and animal fat, their demand may rise leading to a shortage of food crisis Biodiesel are not suitable in low temperatures, they form gel under low temperatures, which depends on the oil or fat used to make it The engine efficiency increases with the use of biodiesel, it can cause considerable damage to the rubber house of some engines. Q7) Explain the classification of Petroleum?A7) Classification:The hydrocarbons in crude oil can generally be divided into four categories:Paraffin’s: These have a carbon ratio of 1:2 and form up to 15 to 60% of crude, the ratio 1:2 means that they contain twice the amount as they do for carbon. They are compounds that are never circular they are either in straight or branched chains. The shorter the paraffin are, the lighter the crude is. Napthenes: they are also called as cyclic paraffin, they possess cyclic compounds and have the carbon and hydrogen ratio of 1:2. They form about 30-60% of crude. They are generally more viscous and higher in density than paraffin. Aromatics: Burning aromatics form soot hence they are undesirable and form around 3 to 30% of crude. They show much less hydrogen in comparison to carbons that are present in paraffin. They have a much less hydrogen in comparison to carbon than is found in paraffin. They are also more viscous. They may exist in a solid or semi-solid when an equivalent paraffin would be a viscous liquid under the same conditions. Asphaltic: The hydrogen carbon ratio is1:1 and form about 6% of the crude, they are dense in nature and undesirable, but their 'stickiness' makes them excellent for use in road construction. Q8) How are biodiesels produced?A8) The preparation of the biodiesel is a transesterification reaction where the triglycerides are converted into simpler methyl esters of the fatty acids (the biodiesel). Biodiesel is produced from tallow, vegetable oil or animal fat, and waste oils. There are three stages of this transformation of oil and fats to biodiesel.a) Transesterification of the oil in which it is base-catalysed.b) The direct acid-catalysed transesterificationc) Finally, conversion of oil to fatty acid and then the formation of biodiesel.The production of biodiesel involves a chemical reaction. This chemical reaction is known as transesterification.Transesterification is the chemical process, which converts natural fats and oils into Fatty Acid Methyl Esters (FAME) or Biodiesel. Some of the major sources of suitable oil (to make biodiesel) come from crops like palm, soybean or rapeseed.
Q9) Determine the Calorific value by Bomb calorimeter?A9) Bomb CalorimeterThe gross calorific value of solid fuels and liquid fuels can be determined by bomb calorimeter. (If the liquid is volatile, then it is filled in a polythene capsule of negligible mass then used in experiment.Construction: A bomb colorimeter consists ofBomb pot Calorie meter Water and air jackets Accessories Pellet press Oxygen cylinder Bomb pot: -It is a cylindrical strong stainless-steel pot having a lid. the lid can be fitted air. Tight to bomb pot by screwing.There are two type of electrodes fitted through lid and there is an oxygen inlet valve as its center. One of these electrodes is provided with a ring to hold the crucible containing fuel. there is thin resistance wire tied to the electrodes in loop form and the loop touches the fuel. The weighed fuel is burnt in the bomb pot in the presence of high-pressure oxygen. Calorimeter: -There is a stainless steel or copper calorimeter in which the bomb pot is kept .it contains a known volume of water and the water is kept circulating around the bomb pot with the help of a stirrer. A Beckman thermometer or digital thermometer is kept in the water of calorimeter, which can record the rise in temperature of welter due to absorb in a heat generated. There are insulator stands between calorimeter and water jacket. Accessories: - There is a pellet press to convert the powder of solid fuel to pellet form. for a liquid fuel a capsule of negligible weight can be used. There is an oxygen cylinder with pressure gauge to fill oxygen in the bomb pot at the pressure of nearly 25 kg / cm². There is also a D.C battery of a about 6 volts to start combustion of fuel.
Fig: Bomb CaloriemeterWorking: -Weigh the pellet of solid fuel or liquid capsule and keep it in the crucible. keep the crucible in the ring of the electrode. keep the resistance wire touching to the fuel. Add about 10 ml of distilled water at the bottom of bomb pot and fix the lid tightly to bomb by screwing. Fill the bomb with oxygen at the pressure about 25 kg / cm². Place the bomb in calorimeter add known volume of water in the calorimeter so that the bomb gets immersed in the water. Place the calorimeter in the water jacket over the plastic studs. keep the thermometer and stirrer in the water of calorimeter. Put the plastic cover on the and make electrical connections from battery to electrodes. Operate the stirrer for s minutes and note the initial temperature of water (t1° c). Pass the current for about 5 – 10 seconds to heat the wire so that the fuel catches fire. If the fuel contains S and N elements, they get converted to SO3 and N2O5. these gases get dissolved in the distilled water in bomb to form H2SO4 and HNO3 (along with liberation little heat). Note the maximum temperature reached. after that note the rate of fall of temperature per minute and the time taken for reaching to initial temp. are noted. Open the bomb pot and wash the contents at its bottom into a beaker to find out the amount of H2SO4 and HNO3 formed.
represents the available hydrogen. |
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