The heat transfer of fuel in the boiler.
Answer to Problem 62P
The heat transfer of fuel in the boiler is
Explanation of Solution
Express the number of moles of carbon.
Here, molar mass of carbon is
Express the number of moles of hydrogen.
Here, molar mass of hydrogen is
Express the number of moles of oxygen.
Here, molar mass of oxygen is
Express the number of moles of nitrogen.
Here, molar mass of nitrogen is
Express the number of moles of sulfur.
Here, molar mass of sulphur is
Express the total number of moles.
Here, number of moles of carbon, hydrogen, oxygen, nitrogen and sulfur is
Express the mole fraction of carbon.
Express the mole fraction of hydrogen.
Express the mole fraction of oxygen.
Express the mole fraction of nitrogen.
Express the mole fraction of sulfur.
Express the heat transfer from the combustion chamber.
Here, number of moles of products is
Express the enthalpy change of sulfur dioxide between the standard temperature and the product temperature.
Here, specific heat constant pressure is
Express the heat transfer of fuel in the boiler.
Here, number of moles of carbon, hydrogen, oxygen, nitrogen and sulfur is
Conclusion:
Refer Table A-1, “molar mass, gas constant, and the critical point properties”, and write the molar masses.
Substitute
Substitute
Substitute
Substitute
Substitute
Substitute
Substitute
Substitute
Substitute
Substitute
Substitute
Express the combustion equation.
Here, stoichiometric coefficient of air is
Express the stoichiometric coefficient of air by
Substitute
Refer Equation (XVI) and write the number of moles of reactants.
Perform unit conversion of temperature at state 2 from degree Celsius to Kelvin.
Refer Equation (XVI), and write the number of moles of products.
Here, number of moles of product carbon dioxide, water, oxygen, sulfur dioxide and nitrogen is
Take the temperature at standard condition as,
Substitute
Refer Appendix Table A-18, A-19, A-20, A-23 and A-26 and write the property table for products and reactants as in Table (1).
Substance |
|
|
|
0 | 8682 | 11,711 | |
0 | 8669 | 11,640 | |
9904 | 13,356 | ||
9364 | 13,372 | ||
Substitute the values form Table (I) into Equation (XII) to get,
Substitute
Hence, the heat transfer of fuel in the boiler is
Want to see more full solutions like this?
Chapter 15 Solutions
Thermodynamics: An Engineering Approach
- Thermodynamics: Calculate using average specific heat table (A2-b)arrow_forwardi was studying studying thermodynamics but i couldn't understand that question. thanks to the person who can solve and explain this question for me . i will be grateful for that.arrow_forwardA gas turbine receives 40,000 CFM of air at 14 psia, 60 F, and compresses to 98 psia. Liquid octane fuel with CP = 0.53 Btu/lb R is injected into the combustors at a rate of f = 0.01635 Ib fuel/ Ib air. The combustion is complete with a release of 19,300 Btu/lb. CP of air = 0.24 Btu/lb-R, K= 1.4. Determine: 1. The temperature entering the Turbine, R 2. The net horsepower delivered, HP 3. The cycle efficiency, %arrow_forward
- Show transcribed data A coal used in a boiler contains 80% carbon, 10% hydrogen, 2% oxygen and 4% sulfur. There are 24% excess air needed for complete combustion. The supply air is at standard atmospheric condition at 24 degrees C. The boiler generates steam at superheat condition with a pressure of 8.0 mpa and temperature of 420 degrees C. The water is supplied to the boiler at 24 kg per minute with a temperature of 92.4 degrees C. Due to boiler age, it has only 92.4% efficiency. Compute the actual amount of air in m3/hr needed to burn the fuel if the feedwater losses 8% of its mass due to evaporation.arrow_forwardA boiler delivers steam at 100 bar and 500 C. the feed water inlet temperature is 160 C. the steam is produced at the rate of 100 tonnes/h and the boiler efficiency is 88%. Estimate the fuel burning rate in kg/h if the calorific value of the fuel is 21MJ/kgarrow_forwardINTERNAL COMBUSTION.arrow_forward
- Please it's urgent pleasearrow_forwardIn a gas turbine unit, air enters the combustion chamber at 550 kpa 275oC and 45 m/s. The products of combustion leave the combustor at 511 kpa, 1000oC and 180 m/s. Liquid fuel enters with a heating value of 43000 kJ/kg and fuel-air ratio is 0.0229 by mass. Take cp = 1.00 kJ/kg-K for air and cp = 1.08 kJ/kg-K for flue gas. Determine the combustor efficiency?arrow_forwardA boiler furnace releases 10 400 kj of heat for each kg of fuel burned and produces dry staturated steam at 14000 kpa from feedwater at 200 degrees celcius . How many kg of steam will be produced for each kg of fuel burned if the boiler had an efficiency of 66% ? .arrow_forward
- A boiler delivers steam at 100 bar and 500 C. the feed water inlet temperature is 160 C. the steam is produced at the rate of 100 tonnes/h and the boiler efficiency is 88%. Estimate the fuel burning rate in kg/h if the calorific value of the fuel is 21MJ/kgarrow_forwardThe working substance of a certain Carnot engine is 1.40 mol of an ideal monatomic gas. During the isothermal expansion portion of this engine's cycle, the volume of the gas doubles, while during the adiabatic expansion the volume increases by a factor of 5.7. The work output of the engine is 990 J in each cycle. Part A Compute the temperatures of the two reservoirs between which this engine operates. Express your answer using two significant figures. Enter your answers numerically separated by a comma. IVE| ΑΣΦ TL,TH= Submit Provide Feedback Request Answer ? Karrow_forwardA coal-fired boiler is used to supply 18 000 kg/hr of steam at 12.5 bar with a dryness fraction of 0.97 to a dyehouse. Feedwater temperature is 105 °C with coal supplied at 2 040 kg per hour to the combustion chamber. Assuming the calorific value of coal to be 27.4 MJ / kg and the specific heat capacity of feedwater to be 4.18 kJ/kg K , determine: the heat rate in kJ/hr the thermal efficiency of the boiler Complaints are received from the neighbourhood about the deposit of fly-ash and particulate matter on houses and buildings. Discuss briefly ONE POSSIBLE cause of this problem referring to the boiler operation and maintenance. Suggest TWO ways of addressing the above problem.arrow_forward
- Refrigeration and Air Conditioning Technology (Mi...Mechanical EngineeringISBN:9781305578296Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill JohnsonPublisher:Cengage Learning