Leong, C. T., and A. M. Shariff. 2008. Inherent safety index module (ISIM) to assess inherent safety level during preliminary design stage. Process Saf. Environ. Protect. 86(2):113-119.
Leong, C. T., and A. M. Shariff. 2009. Process route index (PRI) to assess level of explosiveness for inherent safety quantification. y. Loss Prevent. Proc. Ind.. 22(2):216-221.
Lin, D., A. Mittelman, V. Halpin, and D. Cannon. 1994. Inherently Safer Chemistry: A Guide to Current industrial Processes to Address. Washington, DC: Office of Pollution Prevention and Toxics, U.S. Environmental Protection Agency.
Lindell, M. K., and Perry, R. W. (2006). Onsite and offsite emergency preparedness. Pp. 1959-1971 in S. Lee. (Ed.) Encyclopedia of Chemical Processing. New York: Marcel Dekker.
Mannan, S., ed. 2005. Lee’s Loss Prevention in the Process Industries, 3rd Ed. Oxford, UK: Elsevier Butterworth-Heinemann.
Mansfield, D. P., R. D. Turney, R. L. Rogers, M. Verwoerd, and P. Bots. “How to Integrate Inherent SHE in Process Development and Plant Design.” IChemE Conference, Major Hazards Onshore and Offshore 1995.
Manuele. F. A. 2003 On the Practice of Safety. Hoboken, NJ: John Wiley & Sons.
Meel, A., and W. D. Seider. 2005. Dynamic risk assessment of inherently safe chemical processes: Accident precursor approach. In 2005 Spring National Meeting Conference Proceedings, Atlanta, GA. New York: American Institute of Chemical Engineers.
Mulhern, B. 2008. Up on green roofs. Turf Magazine, January [online]. Available: http://www.turfmagazine.com/article-192.aspx. Accessed Sept. 27, 2011.
NJ DEP (New Jersey Department of Environmental Protection). 2009. News about the TCPA Program: Toxic Catastrophe Prevention Act (TCPA) TCPA 13:1K-24, March 16 [online]. Available: http://www.state.nj.us/dep/rpp/brp/tcpa/tcpanews.htm. Accessed: Sept. 23, 2011.
Palaniappan, C., R. Srinivasan, and I. Halim. 2002a. A material-centric methodology for developing inherently safer environmentally benign processes. Comput. Chem. Eng. 26(4-5):757-774.
Palaniappan, C., R. Srinivasan, and R. Tan. 2002b. Expert system for the design of inherently safer processes. 1. Route selection stage. Comput. Client. Eng.. 41(26):6698-6710.
Palaniappan, C., R. Srinivasan, and R. Tan. 2002c. Expert system for the design of inherently safer processes. 2. Flowsheet development stage. Ind. Eng. Chem. Res. 41(26):6711-6722.
Puranik, S. A., K. K. Hathi, and R. Sengupta. “Prevention of Hazards Through Technological Alternatives.” Safety and Loss Prevention in the Chemical and Oil Processing Industries, 581-87. IChemE Symposium Series, no. 120. Rugby, Warwickshire, UK: The Institution of Chemical Engineers, 1990.
Rahman, M., A. M. Heikkila, and M. Hurme. 2005. Comparison of inherent safety indices in process concept evaluation. J. Loss Prevent. Proc. Ind. 18(4-6):327-334.
Rogers, R. L., and S. Hallam. 1991. “A Chemical Approach to Inherent Safety.” IChemE Symposium Series No. 124:235-241.
Rogers, R. L., D. P. Mansfield, Y. Malmen, R. D. Turney, and M. Verwoerd. 1995. The INSIDE project: Integrating inherent safety in chemical process development and plant design. In International Symposium on Runaway Reactions and Pressure Relief Design, ed. G. A. Melhem and Harold G. Fisher, 668-89. New York: American Institute of Chemical Engineers.
Rusli, R., and A. M. Shariff. 2010. Qualitative assessment for inherently safer design (QAISP) at preliminary design stage j. Loss Prevent Proc. hid. 23(1):157-165.
Scheffler, N. E. 1995. Inherently safer latex plants. In Proceedings of the 29th Annual Loss Prevention Symposium, ed. Everett D. Wixom and Robert P. Benedetti, Paper 1b. New York: American Institute of Chemical Engineers.
Shah, S., U. Fischer, and K. Hungerbuhler. 2003. A hierarchical approach for the evaluation of chemical process aspects from the perspective of inherent safety. Process Saf. Environ. Protect. 81(6):430-443.
Shariff, A. M., and C. T. Leong. 2009. Inherent risk assessment—A new concept to evaluate risk in preliminary design stage. Process Saf. Environ. Protect. 87(6):371-376.