Wastewater Reclamation Center - Executive Summary |
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EXECUTIVE SUMMARY We have adopted this Program in order to implement 40 C.F.R. 68, the federal requirements regulating Risk Management of Highly Hazardous Chemicals. This Program will help prevent the occurrence of, or minimize the consequences of, catastrophic releases by stating our policies and procedures for the management of process hazards in start-up, operation, inspection, maintenance and the other matters addressed in the federal standard. Our Program calls for maximum employee participation and includes all elements of the employee participation provisions of the standard. We shall, as a minimum: (1) consult with employees on the conduct and development of the process hazard review and other elements of the risk management plan, and (2) provide to our employees access to the process hazard review and all other information required to be developed under that standard. Accidental Release Prevention and Emergency Response Policies The City of Greenville believes that preve ntative maintenance is the key to minimizing the potential for accidental releases. Operations and Maintenance Guidelines (OMGs) have been reviewed and revised to enable the employees to perform their work in a safe and efficient manner. The City of Greenville has taken steps to train the operators, supervisors, maintenance crews, and fire department to be first responders to a release. The training included three days of classroom and hands on training on the proper use of emergency response equipment and procedures. The course followed the guidelines stated in OSHA 1910.120. Stationary Source and Regulated Substances The Waste Reclamation Center utilizes chlorine for disinfection and sulfur dioxide for dechlorination of the treated wastewater. The maximum inventory and threshold quantities for these chemicals are shown below. Chemical Maximum Inventory (lb) Threshold Quantity (lb) Chlorine 16, 000 2,500 Sulfur Dioxide 8,000 5,000 Offsite Consequence Analysis The offsite consequence analysis includes a worst-case release scenario and an alternative release scenario as defined in 40 C.F.R. 68. A dense-gas dispersion model (SLAB) was used to determine endpoint distances for both scenarios. A dense-gas model is required since both chlorine and sulfur dioxide are heavier than air. The model's input parameters are summarized in the table below. SLAB Input Parameters Worst-Case Scenario Alternative Scenario Windspeed (m/s) 1.5 3 Atmospheric Stability Class F D Temperature (0 F) 104 104 Humidity (%) 50 50 Height of Release (m) 0 1 Surface Roughness 1 1 Chlorine Sulfur Dioxide End Points (mg/l) 0.0087 0.0078 The results of the air dispersion model are summarized in the table below along with the estimated population within the impact area. The population data was estimated using the Block Uniform Density Group Method in Landview III. The public and environmental rece ptors are listed in Section 7 of this plan. SLAB Output Results Worst-Case Scenario Alternative Scenario Chlorine Sulfur Dioxide Chlorine Sulfur Dioxide Impact Radius (miles) 4 4.2 0.5 0.6 Estimated Population with Impact Area 2,700 3,100 14 20 General Accidental Release Prevention Program The City of Greenville has implemented a General Accidental Release Prevention Program to minimize releases. This Program includes: safety information on the covered chemicals, hazard reviews, operating and maintenance procedures, training, compliance audits, incident investigations, and emergency response procedures. Five-year Accident History In the last 5 years, there have not been any accidental releases from the covered processes that resulted in deaths, injuries, or significant property damage on site, or known offsite deaths, injuries, evacuations, sheltering-in-place, property damage, or environmental damage. |