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Inherently Safer Design Example

Inherently Safer Design Example. Dennis C. Hendershot Rohm and Haas Company Engineering Division Croydon, PA Dhendershot@rohmhaas.com 2003 SACHE Faculty Workshop Baton Rouge, LA September, 2003. Scenario.

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Inherently Safer Design Example

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  1. Inherently Safer Design Example Dennis C. Hendershot Rohm and Haas Company Engineering Division Croydon, PA Dhendershot@rohmhaas.com 2003 SACHE Faculty Workshop Baton Rouge, LA September, 2003 SACHE Faculty Workshop - September 2003

  2. Scenario You are the chief engineer for a municipal water and sewer department. You are asked to identify inherently safer technologies for treatment of drinking water and also for disinfection of effluent from the municipal sewage treatment plant prior to discharge to a stream. You are chartered to investigate options from the basic treatment technology through options to improve the inherent safety of the existing chlorination facility (chlorine usage is one 90 ton rail car every month, both for the drinking water and sewage treatment plant). SACHE Faculty Workshop - September 2003

  3. Basic technology • Options for municipal drinking water • Identify options to eliminate or significantly reduce chlorine usage • New hazards for the options? • Options for waste water effluent disinfection • Identify options to eliminate or significantly reduce chlorine usage • New hazards for the options? SACHE Faculty Workshop - September 2003

  4. Existing water treatment process options • Objective – drinking water and sewage plant effluent chlorinated to the concentration required by public health and environmental authorities • Both existing plants use 90 ton chlorine rail cars with liquid chlorine transferred with pressure (say 125 psig, from the chlorine vapor pressure and a nitrogen blanket) about 200 feet across a site road in a 2 inch pipe to a 50 psig steam heated vaporizer, then gaseous chlorine is injected into the water • Identify design alternatives and discuss inherent safety advantages and disadvantages SACHE Faculty Workshop - September 2003

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