An expert guide to emission control technologies and applications, Fossil Fuels Emissions Control Technologies provides engineers with a guide to link emission control strategies to available technologies, allowing them to choose the technology that best suits their individual need. This includes reduction technologies for Nitrogen Oxides, Sulfur Oxides, Mercury and Acid Gases. In this reference, the author explains the most critical control technologies and their application to real-world regulatory compliance issues. Numerous diagrams and examples emphasizing pollution formation mechanisms, key points in pollutant control, and design techniques are also included. Provides numerous diagrams and examples to emphasize pollution formation mechanisms Coverage of critical control technologies and their application to real-world solutions Explains Sulfur Oxides, Acid Gases, Nitrogen Oxides Formation and Organic HAPs, Control and Reduction Technologies Covers Particulate Matter and Mercury Emissions Formation and Reduction TechnologiesAir pollution engineering manual. 2nd ed. New York: John Wiley aamp; Sons, Inc; 2000 ... Miller CA, and Linak WP. Primary particles generated by the combustion ... Processes use many collection types. Chemical Engineering 1951;58 (8): 144A51.
|Title||:||Fossil Fuel Emissions Control Technologies|
|Author||:||Bruce G. Miller|
|Publisher||:||Butterworth-Heinemann - 2015-05-15|