Record Display for the EPA National Library Catalog
RECORD NUMBER: 11 OF 19
|OLS Field Name||OLS Field Data|
|Main Title||Superfund record of decision : Hooker Chemical/Ruco Polymer, NY : first remedial action.|
|CORP Author||United States. Environmental Protection Agency.|
|Publisher||U.S. Environmental Protection Agency, Office of Emergency and Remedial Response ; Reproduced by National Technical Information Service,|
|Subjects||Hooker Chemical/Ruco Polymer site (N.Y.) ; Hazardous waste sites--New York (State)--Nassau County. ; Hazardous waste sites--New York--Nassau Co|
|Additional Subjects||Pollution control ; Hazardous materials ; Waste disposal ; Soils ; Debris ; Polychlorinated biphenyl ; Metals ; Groundwater ; Excavation ; Superfund ; Record of Decision ; First Remedial Action ; Nassau County(New York) ; Volatile organic compounds ; Cleanup ; Hicksville(New York)|
|Collation||72 p. : ill. ; 28 cm.|
The 14-acre Hooker Chemical/Ruco Polymer site is an active polymer production facility in Hicksville, Nassau County, New York. Surrounding land use is primarily industrial and commercial, and a residential area is located near the site. Since 1984, site investigations have identified four onsite areas of PCB contamination. These include a direct spill area where releases of heat transfer fluid escaped through a relief valve at the pilot plant, a transport area contaminated by PCBs spread from the direct spill area by onsite truck traffic, the recharge basin that was contaminated by surface runoff, and soil contamination around an underground fuel storage tank, which was disposed of offsite in 1989. The Record of Decision (ROD) addresses remediation of Operable Unit 2 (OU2), the PCB-contaminated soil at the above locations. Remediation of remaining site areas, VOC-contaminated soil, and ground water will be addressed as OU1 in a subsequent ROD. The primary contaminants of concern affecting the soil and debris are PCBs.
"09/28/90." "PB91-921427." "EPA/ROD/R02-90/121." "September 1990." "Office of Emergency and Remedial Response."