Science Chemistry 1. Calculate the weight (number of pounds) of each rank of coal that would have to be burned to produce million BTU (or 3,500,000 BTU) of heat, using the data in the table. Because a range of heating values (or energy output) is given for each coal rank, include a range in your answers. Weight of coal burned to produce 1 ...
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How much actual (practically) air is required for 1kg/hr coal combustion? 1 kg coal is 1/12 kmol coal (pure C assumed), needs 1/12 kmol O2 for combustion, or 1/12 * 100/21 kmol of air. This is roughly kmol of air/hr, or kg of How to Calculate the Coal Quantity Used in a Power Plant 15 окт. 2009 г. Coal equivalent 1 kg coal ...
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A sample of coal was found to have the following percentage composition C=75 %, H2 = %, O2 = %, N2 = % and the rest ash. Calculate the amount of air needed for the complete combustion if 1 kg of the coal is burnt with 30 % excess air. Propal alcohol (C3H7OH) is burned with 50 percent excess air.
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Final answer: The theoretical dry air needed for the most efficient combustion of 1 kg coal with the given analysis is [INSERT CALCULATED VALUE] moles.. Explanation: In order to determine the theoretical dry air needed for the most efficient combustion of 1 kg of coal, we need to calculate the molar ratios between the reactants and products in the balanced equation for the combustion of coal.
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Carbon, hydrogen and Sulphur in the fuel combine with oxygen in the air to form carbon dioxide, water vapour and Sulphur dioxide releasing tremendous heat. Basic requirements of combustion:Fuel, Oxygen and 3T's. C + O2 = CO2+ Heat 8084 kcal/kg of Carbon. 2C + O2 = 2CO + Heat 2430 kcal/kg of Carbon.
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The oxygenfuel mass ratio is then: 2 * 32 / 1 * = 64 / So we need kg of oxygen for every 1 kg of fuel. Since masspercent of air is actually oxygen, we need : * 100/ = kg air for every 1 kg of methane. So the stoichiometric airfuel ratio of methane is When the composition of a fuel is known, this ...
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Calculate the amount of minimum air required for. Calculate the amount of minimum air required for complete combustion of 1kg of coal sample. Solution 1 kg of coal contains: C = 800g; H = 50g; O = 10g; N = 20g Combustion reaction Wt of Air required C + O2 CO 12 32 2 H + H2 2 16 800g (32/12) = 2,146g 50g (16/2) = 400g Total = 2,546g Less O ...
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The air required for combustion is 15 kg per coal at a barometric pressure of kPa. The flue gas has a temperature of 285°C and an average molecular weight of 30. Assuming an ash loss of 11% and an allowable gas velocity of m/s, find the diameter of the chimney. 62 Methane gas burn completely when supplied with 30 percent excess dry air.
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If an insufficient amount of air is supplied to the burner, unburned fuel, soot, smoke, and carbon monoxide exhausts from the boiler resulting in heat transfer surface fouling, pollution, lower combustion efficiency, flame instability and a potential for explosion.
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Solution for For complete combustion of 1 kg of a typical coal 12 kg of air is required. Calorific value of coal is 4200 kCal/kg with ash content of 22%. ... Thirty kilograms of butane gas per minute burns with dry air inside a combustion chamber, giving products having the dry molar analysis of % carbon dioxide, % carbon monoxide, % ...
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Rough estimate: 1 kg coal is 1/12 kmol coal (pure C assumed), needs 1/12 kmol O2 for combustion, or 1/12 * 100/21 kmol of air. This is roughly kmol of air/hr, or kg of...
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Calculate the amount of air needed for the complete combustion if 1 kg of the coal is burnt with 30 % excess air. 2. A fuel contains C = 60 %, H 2 = 9 %, O 2 = 8 %, S = 13 %, remaining ash. Calculate the minimum quantity of air required for the complete combustion of 1kg of a fuel. 3. A fuel gas has the following volumetric analysis: CH 4 = 70% ...
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Calculate the amount of air required for the burning of 1 kg of coal, whose analysis is given below, and the amount of gases formed as a result of burning, in kg. C = kg / kgy N2 = kg / kgy H2 = kg / kgy O2 = kg / kgy S = kg / kgy H2O = kg / kgy Ash = kg / kgy Combustion is complete combustion and the ...
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Determine the theoretical dry air needed to for the most efficient combustion of 1 kg coal of the following analysis, (percentages) C=73(KK/5) O=8+(KK/5) S= W= H== A= C=Carbon O=Oxygen S = Sulfur W= Water A=Ash H=Hydrogen N=Nitrogen, ... To decide the hypothetical dry air required for proficient ignition of 1 kg coal, we want ...
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Combustion air and flue gas for common fuels coke, oil, wood, natural gas and more. Combustion air and flue gas for some common fuel gases, solids and fluids: 1) Combustion of a fuel gas creates a flue gas with higher density than the fuel gas and the combustion air. Check stoichiometric combustion.
WhatsApp: +86 18203695377![[Solved] For complete combustion of 1 kg of Carbon, the required Oxyg](/zt4f2sg/252.jpg)
The basic reactions involved are: For carbon and oxygen. C + O 2 → CO 2. 1 mole C requires 1 mole of O 2. The mass of carbon is 12 gm, and oxygen is 16 gm. 1 mole of C = 12 gm. 2 mole of O 2 = 2 × 16 = 32 gm. Hence 32 gm of oxygen required to burn 12 gm of carbon. Mass of oxygen needed to completely burn 1 kg or 1000 gm of carbon:
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Example (): Boiler generates 2400 kg of dry steam per hour at a pressure of 11 bar. The grate area of the coal is 3 m2 and 90 kg of coal is burnt per m2 of grate area per hour. The calorific value of the coal is 33180 kj/kg, and the temperature of feed water is oC. Determine (1) actual evaporation per kg of coal. (2) equivalent evaporation.
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Let us calculate the 02 required for 1kg of coal first Weight of carbon = 81 / 100 * 1 = kg Weight of hydrogen = 5 / 100 * 1 = kg ... Net O2 required = kg . Weight of air required = weight of O2 / 23 *100 = / 23 *100 = kg of air Volume of air:
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See Answer. Question: Calculate the amount of air required for the burning of 1 kg of coal, whose analysis is given below, and the amount of gases formed as a result of the combustion in kg. C = kg / kgy N2 = kg / kgy H2 = kg / kgy O2 = kg / kgy S = kg / kgy H2O = kg / kgy Ash = kg / kgy Combustion is ...
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( + 8H + S) kg. If the fuel contains O kg of oxygen; then it is taken into account ADVERTISEMENTS: ∴ Oxygen required from air for the complete combustion of fuel will be ( + 8H + S O) which can be written as + 8 (H O/8) + S, the term in the bracket being known as the available hydrogen.
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Cd) Following parameters are noted from ultimate analysis of a coal sample: (i) (ii) Carbon53% Sulpher2% (iii) Hydrogen2(fo (tv) %. Calculate theoretical quantity of air required in kg. for burning 1 kg coal. 6. Answer any four :(0,) 20. Describe the function of Air nozzles in AFBC and CFBC Boiler. (6) Describe
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FuelAir Ratio (FAR): The fuelair ratio, f, is given by f ¼ m f m a; () where m f and m a are the respective masses of the fuel and the air. For a stoichiometric mixture, Eq. becomes f s ¼ m f m a stoichiometric ¼ M f ðaþ b 4 g 2Þ 4:76 M air; () where M f and M air (~ kg/kmol) are the average masses per moleoffueland air,
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1 kg of sulfur requires 1 kg of oxygen, therefore, for S kg of sulfur S kg of oxygen. Therefore the quantity of oxygen required for combustion of 1 kg of the fuel is [ (8/3)C + 8H + S] kg. If the fuel contains O kg of oxygen, it must be considered. So, oxygen is required from the air for the complete combustion of fuel will be,
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The airtofuel ratio defines the amount of air needed to burn a specific fuel. The airtofuel ratio defines the amount of air needed to burn a specific fuel. The conventional fuels used in the combustion process are oil (#2, 4, and 6), diesel oil, gasoline, natural gas, propane, and wood—ratios for common gases, liquid, and solid fuels noted in Tables and
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The percentage composition by mass of a sample of coal is C = 90, H 2 =, O 2 =, N 2 =, S =, the remaining being ash. Estimate the minimum mass of air required for the complete combustion of 1 kg of this fuel and the composition of dry products of composition, by volume, if 50% excess air is supplied.
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