Fort Mill WPCP - Executive Summary

| Accident History | Chemicals | Emergency Response | Registration | Source | Executive Summary |

SECTION ONE 
 
 
 
INTRODUCTION 
1.1 Executive Summary 
 
The Federal Register/Vol.61, No. 120/Thursday, June 20, 1996 amended 40 CFR Part 68 to include the U.S. Environmental Protection Agency's (USEPA) Risk Management Program. This program requires facilities that have a regulated substance above the listed threshold quantities to develop a formal Risk Management Program (RMProgram) and to register and submit a Risk Management Plan (RMPlan). 
 
The Town of Fort Mill, South Carolina (the Town) is subject to this regulation as the owner and operator of the Fort Mill Water Pollution Control Plant (WPCP) located at 1435 Spratt Street, Fort Mill, York County, South Carolina.  This facility is a stationary source of chlorine (a regulated substance) in excess of 2,500 pounds. 
 
A RMProgram has been developed to meet the intent of the regulations for this facility using Program 3.  Information from the Federal Register, AWWA's Compliance Guidance and Model Risk Management Program for Water Treatment P 
lants, and EPA's Risk Management Program Guidance For Wastewater Treatment Plants (40 CFR Part 68) were used as resources for the development of this program. 
 
The Fort Mill WPCP uses chlorine in its wastewater treatment process to disinfect the treated wastewater before being discharged into the Catawba River.  The chlorination process includes the storage of up to two (2) 1-ton cylinders of liquid/gaseous chlorine.  The process is located within a closed building utilizing a vacuum feed system, instrumentation, process specific piping and connection materials. 
 
A hazard assessment was conducted at the facility to determine the past history of accidents or releases of chlorine.  Plant records and interviews with current plant personnel indicated there have been no releases of chlorine in the last five years that resulted in injury, death or property damage.  
 
In compliance with the regulations, a worst-case release scenario was modeled using the EPA RMPComp dispersion model to determi 
ne the potential impact of such a release.  The worst-case scenario assumes that a one 1-ton container releases 2,000 pounds of gaseous chlorine over a 10-minute period.  The model predicted that an area within a 1.3 - mile radius of the plant could be adversely affected by such a release.   
 
An alternative-case scenario was also modeled using RMPComp to model the effects of a more probable release.  This scenario involved a valve failure resulting in the release of gaseous chlorine through a 5/16" diameter opening over a 60-minute period in a closed building.  This simulation results in the release of 424 pounds of chlorine gas to the atmosphere.  RMPComp predicted that areas located within a 0.1- mile radius of the release point could be adversely impacted.  
 
1.2 Overview of EPA Risk Management Regulations 
 
The EPA Risk Management Program regulations are intended to minimize the potential impacts of accidental releases of extremely hazardous substances. These regulations are applicab 
le to the Fort Mill WPCP because chlorine stored at the facility is in excess of the EPA RMP Threshold amount of 2,500 pounds. 
The Fort Mill WPCP RMProgram complies with the intent of the EPA regulations by providing information to the utility employees, local emergency preparedness officials, and the affected public to minimize health and safety impacts. The program consists of: 
 
a. A management plan. 
b. An employee participation plan. 
c. A hazard assessment. 
d. A prevention program (Program 3). 
e. An emergency response plan. 
f. Public Awareness, and  
g. RMPlan submittal to EPA 
 
The related Occupational Safety and Health Administration (OSHA) Process Safety Management (PSM) rules (29 CFR 1910.119) require comprehensive management systems for the handling of these highly hazardous chemicals. South Carolina has it's own OSHA plan; therefore, the Fort Mill WPCP is subject to this regulation. 
 
1.3 Goals and Objectives 
 
The mission of the Fort Mill WPCP  is to provide adequate treatment fo 
r the wastewater produced by the Town.  This process involves the addition of certain chemicals that, if released in an uncontrolled manner, may present a risk to public health.  While such incidents are rare, they have occurred at other similar facilities.  Based on a review of the EPA Accidental Release Information (ARIP) database, over 60 accidental releases of RMP regulated chemicals at water and wastewater treatment facilities in the USA were reported between 1986-1995. 
 
State-of-the-art methods for reducing risks associated with utilizing highly mobile toxic chemicals, such as chlorine, have evolved in recent years.  The newer risk management techniques consist of a comprehensive management system designed to promote responsible and disciplined operation, maintenance, and emergency response. 
 
The overall goal in developing and maintaining the Fort Mill WPCP RMProgram is to reduce the risk to employees and the public of injury or death from the accidental release of chlorine liqui 
d or gas.  The RMProgram is not a substitute for other conventional health and safety programs. 
 
This document will require periodic updates and modifications.  Changes in key personnel, chlorine vendors and modifications to the treatment process are among the items that require Plan modifications.  Specific items and their respective timetables for Plan modification are included herein.   
 
Several elements of the Risk Management Program directly or indirectly reference plans and procedures contained within other pre-existing documents (i.e. O&M manuals, Process Safety Management Plan, general safety guidelines, etc.).  This document provides a system for incorporating those items performed under separate unrelated plans into the Program.  Documentation of work completed under other programs and procedures is required in order to remain in compliance with the RMP regulations.  
 
A thorough review of the Plan is required for proper implementation.  
Click to return to beginning