Record Display for the EPA National Library Catalog
RECORD NUMBER: 34 OF 40
|OLS Field Name||OLS Field Data|
|Main Title||Superfund record of decision : Sharon Steel Site, Midvale, UT.|
|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||Hazardous waste sites--Utah.|
|Additional Subjects||Superfund ; Hazardous materials ; Waste disposal ; Land pollution control ; Tailings disposal ; Soil contamination ; Sediments ; Lead(Metal) ; Cadmium ; Arsenic ; Metals ; Ground water ; Runoff ; Water pollution monitoring ; Dredging ; Excavation ; Landscaping ; Restrictions ; Remedial action ; Utah ; Record of Decision ; Cleanup ; Midvale(Utah) ; Salt Lake County(Utah)|
The decision document presents the selected remedial action for the Sharon Steel, Operable Unit 01 (OU1) Site, in Midvale, Utah. The selected remedial action for OU1 will incorporate the contaminated soils from the OU2 remedial action. The selected remedy for the OU2 residential soils is fully described in detail in the OU2 ROD dated September 25, 1990 (PB91-921488). The OU2 selected remedy included excavating the contaminated soils within the OU2 area and storing them in a repository on the OU1 mill site. The selected remedy includes capping of the site with groundwater monitoring and containment. The contingency process would allow for an alternative remedy which includes excavation, transport, and offsite containment of the contaminated tailings and soils from the OU1 site.
"12/09/93." "PB94-964403." "EPA/ROD-R08-94-082." "July 1994." Published by: U.S. Environmental Protection Agency. Office of Emergency and Remedial Response.
ROD for steel mill site (OU1) and an adjoining residential site (OU2). Mill accumulated tailings consisting of lead, copper and zinc. Hazard to residences occurred when windblown tailings were used in sandboxes, etc. Remedy: Excavate, relocate and cover tailings with soil.