Encyclopedia of Environmental Science and Engineering, Volume I and II

860 PCBs AND ASSOCIATED AROMATICS

with more than 50% chlorination, are present in the general

environment and are a threat to certain species of wildlife....

To be sure that the Inerteen and Inerteen contaminated mate-

rials do not contaminate the environment they must be incin-

erated in approved equipment.”

A disposal section in the handling instructions describes

the disposal of Inerteen liquid, solvent rinses contaminated

with Inerteen, solids contaminated with Inerteen and the

cleaning of contaminated drums.

February 9, 1976: The NYDEC found GE to have violated

two State laws by its discharge of PCBs.

February 17, 1976: Ogden Reid (Comm. NYDEC)

announced that he would issue orders closing the Hudson

River as a commercial fishery for most species of fish

because of PCB contamination.

February 13, 1976: The Hudson River was ordered

closed to commercial fishing with the exception of chad.

February 24–25, 1976: The transformer subcommit-

tee of ANSI met on February 24 and 25, 1976 and issued

minutes which contained the following: “Transformers

with Replacement Fluids: Apparatus that has contained

PCBs which have been replaced with another fluid should

be labeled as indicated below, and the disposal ultimately

should follow the same disposal procedures as those recom-

mended for PCB liquids and PCB-filled apparatus.”

February 25, 1976: Versar Task I final report: “It is

estimated that approximately 1.5 billion pounds of PCBs

have been sold for industrial use in the US since initiation

of production around 1930. Of this amount, at least 95% is

still in existence; most is in service in capacitors and trans-

formers, but about 290 million pounds are believed to reside

in landfills and dumps and about 150 millions pounds are

believed to be ‘free’ in the environment. The magnitude of

these values indicates that there is a strong future threat from

PCBs in land disposal sites,”.... “Although PCB content in

industrial wastes can be reduced through various approaches

(treatment, substitution, etc.), the large amounts of PCBs

already contained in land disposal sites present a severe

hazard for the future.”... “Monsanto and portions of the

electrical equipment industry which use PCBs have greatly

reduced PCB releases to water and land over the past few

years, primarily through improvement of plant housekeep-

ing, improved waste collection and handling, and disposal of

liquid wastes through incineration.”

March 26, 1976: Senator Nelson introduced an amend-

ment to the Toxic Substances Act which would eliminate the

remaining uses of PCBs unless EPA finds that there is not a

serious health hazard. The amendment was incorporated into

TSCA as Section 6(e) and became a legislated requirement

when TSCA was signed into law on October 11, 1976. The

effective data of TSCA was January 1, 1977.

April 1, 1976: EPA issued recommended procedures

for disposal of PCBs by industrial users under the Solid

Waste Disposal Act. Recommended options for the disposal

of PCB-containing wastes were given in priority order as

(1) incineration and (2) controlled land disposal. In the case

of land disposal it was mentioned that wastes containing

PCBs should not be disposed of with other mixed wastes

in a sanitary landfill. At this point in time the characteris-

tics of transport of PCBs through soil were not definitively

established. The regulations pointed out that “The ubiquity

and persistence of PCBs indicate that their disposal should

be carefully controlled until additional data are developed.”

Non-chemical waste landfills were then strongly contrasted

with the following description of a chemical waste landfill.

“In general terms, a chemical waste landfill provides com-

plete long term protection for the quality of surface and sub-

surface waters from hazardous waste deposited therein, and

against hazards to public health and the environment. Such

sites should be located or engineered to avoid direct hydrau-

lic continuity with surface and subsurface waters. Generated

leachates should be contained and subsurface flow into the

disposal area eliminated. Monitoring wells should be estab-

lished and a sampling and analysis program conducted.”

June 1976: Instructions for handling Inerteen ® insulating

fluid and installation and maintenance of inerteen transform-

ers were issued by Westinghouse’s Small Power Transformer

Division in June 1976 [Westinghouse, 1976]. A section was

included on environmental considerations in which PCBs

were described as extremely persistent in the environment.

In closing the section, Westinghouse goes beyond the rec-

ommendation of the ANSI C-107 guideline by indicating

that the Inerteen and Inerteen contaminated materials should

be incinerated in approved equipment. No mention is made

of the second ANSI guideline alternative of draining and

flushing the transformer carcass before disposal in a scrap

yard. The suggested method of disposal is quite the opposite

and leads to the ultimate destruction of PCB contaminated,

porous materials such as absorbing clay, filter paper, car-

tridges, sawdust, rags and insulation while the non-porous

metallic transformer components are solvent cleaned and the

solvent incinerated.

TABLE 4

In Service Age (yr.) Temperature(°C) PCBs(ppm) PCQs*(ppm) PCDFs(ppm)

14 180–270 968,400 31,000 510

3 200–220 999,000 690 277

0 ‡ — 999,800 209 33

(^) * (^) PCB  polychlorinated quaterphenyl.
‡  not used.
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