Encyclopedia of Environmental Science and Engineering, Volume I and II

768 NITROGEN OXIDES REDUCTION

14. 
    

    NYSDEC. “Reasonably Available Control Technology for Oxides of
    Nitrogen (NO x RACT),” NYCRR, Title 6, Parts 200, 201 and 227 (1994).

    
    


15. 
    

    NYCDEP. “Air Pollution Code” (1992).

    
    


16. 
    

    Renna, Steven P. and Rubin, Laurence M., Present and Future Vehicle
    Clean Air Regulations — Federal and California Requirements, Brook-
    lyn Union Gas Company, New York (1991).

    
    


17. 
    

    NYSDEC. “New York Air Pollution Control Regulations,” NYCRR,
    Title 6, Part 218 (1992).

    
    


18. 
    

    Flagan, R.C. and Seinfeld, J. H., Fundamentals of Air Pollution Engi-
    neering, Prentice Hall, New Jersey (1988).

    
    


19. 
    

    Wartsila Diesel. “Pure Energy Plant Project Guide,” 2–1 thru 2–2.

    
    


20. 
    

    Con Edison Laboratory Analysis of Arthur Kill No. 6 Fuel Oil.

    
    


21. 
    

    Maier, H., Spliethoff, H., Kicherer, A., Fingerle, A., and Hein, K.R.G.,
    “Effect of Coal Blending and Particle Size on NO x Emission and Burn-
    out,” Fuel, 73, 1447–1452 (1994).

    
    


22. 
    

    Wood, S.C., “Select the Right NO x Control Technology,” Chemical
    Engineering Progress, 90, 32–38 (1994).

    
    


23. 
    

    Garg, A., “Specify Better Low-NOx Burners For Furnaces,” Chemical
    Engineering Progress, 90, 46–49 (1994).

    
    


24. 
    

    Colannino, J., “Low-cost Techniques Reduce Boiler NO x ,” Chemical
    Engineering, 100, 100–106 (1993).

    
    


25. 
    

    Jones, C., “NO x Emissions Control: Small Boilers Pose Great Chal-
    lenges,” Power, 138, 34–41 (1994).

    
    


26. 
    

    Garg, A., “Trimming NOx From Furnaces,” Chemical Engineering, 99,
    122–129 (1992).

    
    


27. 
    

    Straitz, J.F. and Mendoza, V.A., “Combat NO x with Better Burner
    Design,” Chemical Engineering, 101, EE-4–EE-8 (1994).
    28. Makansi, J., “Reducing No x Emissions,” Power, 132, S1–S13 (1988).
    29. Cho, S.M., Properly Apply Selective Catalytic Reduction for No x
    Removal,” Chemical Engineering Progress, 90, 39–45 (1994).
    30. Heck, R.M., Chen, J.M. and Speronello, B.K., “Operating Character-
    istics and Commercial Operating Experience with High Temperature
    SCR NOx Catalyst,” Environmental Progress, 13, 221–225, (1994).
    31. McInnes, R., Wormer, M.B.V., “Cleaning Up NO x Emissions,” Chemi-
    cal Engineering, 90, 130–135 (1990).

    
    


28. 
    

    Redman, J., “Fluidised bed combustion, Sox and NO x (^) ,” The Chemical
    Engineer, 32–38 (1989).

    
    


29. 
    

    NJ Department of Environmental Protection—State implementation
    plan for the attainment and maintenance of the ozone and carbon mon-
    oxide national ambient air quality standards. (1999).

    
    


30. 
    

    Baukal, C.F., Hayes, R., Grant, M., Singh P., and Foote, D., “Nitrogen
    Oxides Emissions Reduction Technologies in the Petrochemical and
    Refining Industries”. Environmental Progress 23, No. 1 19–28 (2004).

    
    


31. 
    

    Mussatti, D.C. (Ed.) EPA Air Pollution Control Cost Manual, 6 th Edi-
    tion, Report EPA/452/B-02–001, U.S. EPA, Wash, D.C. (2002).

    
    

W. MICHAEL SUTTON

New York City Department of

Environmental Protection

EDWARD N. ZIEGLER

Polytechnic University

C014_002_r03.indd 768C014_002_r03.indd 768 11/18/2005 1:26:57 PM11/18/2005 1:26:57 PM