3. Consider a new 1800 MW power plant that burns dry sub-bituminous coal in a PC-wall-fired,wet bottom furnace with plant efficiency of 39%. Use the emission factors in your lecturenotes to determine the emission rates of all particulates, PM10, SOx, NOx and CO in ton peryear. No gas treatment equipment was installed. 3. Consider a new 1800 MW power plant that burns dry sub-bituminous coal in a PC-wall-fired,wet bottom furnace with plant efficiency of 39%. Use the emission factors in your lecturenotes to determine the emission rates of all particulates, PM10, SOx, NOx and CO in ton peryear. No gas treatment equipment was installed.

Step 1: Define the given data Step 2: Compute Coal Energy Input Step 3: Determine Emissions Step 4:…

Answered: 3. Consider a new 1800 MW power plant…

Sustainable Energy

2nd Edition

ISBN:9781337551663

Author:DUNLAP, Richard A.

Publisher:DUNLAP, Richard A.

Chapter17: Energy Conservation

Section: Chapter Questions

Problem 18P

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Similar questions

You serve as the president of XYZ corporation, which is an energy intensive manufacturing operation. You have four boilers to produce steam and electricity for your operations. One is a semi-suspension fired boiler with a capacity of 100 tons of coal per hour. The boiler can also burn supplemental fuel such as coconut or macadamia nut shells. The other three boilers arc peaking units and burn fuel oil. The City of Podunk has approached you about the possibility of burning solid waste as a supplemental fuel. As the president of the XYZ Corporation, you need to develop answers to many political, social, and technical questions before you make a commitment to the city. a. What specific questions would you ask your own power plant engineer about the possibility of accepting Podunk’s MSW? b. What specific additional data would you need from the city before you discuss this further?
Cellulose is to be burned in a waste-to- energy fadlity. The chemical equation for cellulose C6 H10O5is the atomic weights of C, H, and O are 12, 1, and 16. respectively. a. Calculate the stoichiometric oxygen necessary for the combustion of cellulose. b. Calculate stoichiometric air.
(a) Locate, from an appropriate source, the composition for methanol and ethanol. Write down the formulas for the combustion of these two hydrocarbons. (b) Calculate the mass of CO2 produced per kg of methanol and ethanol burned. (c) Locate values for the heat of combustion of methanol and ethanol and determine the mass of CO2 produced per MJ of energy.

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