Taft/

1717 Dixie Highway, Suite 910 Covington, Kentucky 41011-4704
Tel: 859.331.2838 Fax: 513.381.6613


ROBERT A. BILOTT
513.357.9638


January 3, 2018

BY EMAIL AND REGULAR U.S. MAIL

Scott G. Mandirola

Director

Division of Water and Waste Management
WVDEP

601 57th Street, SE

Charleston, WV 25304-2345

Re: Request For Information/Action Relating to GenX Materials Used at
and Released From DuPont?s/Chemours? Washington Works Facility
in Wood County, West Virginia (NPDES Permit
WV0001279/Consent Order No. 7418)

Dear Director Mandirola:

This letter serves as a follow up to my email of December 14, 2017, inquiring
whether your Agency will be responding to my letter of November 28, 2017 (extra copy
enclosed). Please let us know if and when we can expect any response.

Thank you.

 

Encl.
cc: Mary B. Coe, Esq. (US EPA Region Ill Regional Counsel) (w/encl.)

211 6 6 .1
Taft Stettinius gt Igoi?lister LLP Chicago Cincinnati Cleveland Columbus] Dayton lndianapolis/ Northern Kentucky/ Phoenix

Taft/

. 1717 Dixie Highway, Suite 910 Covington, Kentucky 41011-4704
Tel: 859.331.2838/Fax: 513.381.6613


ROBERT A. BILOTT
513.357.9638
bilott@taftlaw.com

November 28, 2017

BY EMAIL AND REGULAR u.s. MAIL

Scott G. Mandirola

Director

Division of Water and Waste Management
WVDEP 

601 57th Street, SE

Charleston, VW 25304-2345

Re: Request For Information/Action Relating to GenX Materials Used at
and Released From DuPont?s/Chemours? Washington Works Facility
in Wood County, West Virginia (NPDES Permit
WV0001279/Consent Order No. 7418)

Dear Director Mandirola:

On July 28, 2017, we sent a letter to your Agency requesting information
regarding the use and release of GenX materials from the referenced facility In Wood
County, West Virginia. After receiving no response, we sent a follow-up email on
August 11,2017. After receiving no response to that email we sent a follow-up letter
on August 28, 2017. -

On September 25, 2017 we received a letter from you (dated September 19,
2017) acknowledging receipt of our inquiries, and stating that you ?have engaged the
US EPA and instructed [your] staff that are involved. .to begin to compile answers to
the questions [we] raise, to the extent we have knowledge or information.? You also
indicated that you would be ?responding to [my] questions as soon as we can gather the
requested information. 

It has now been another two months and we have heard nothing further from
anyone at your Agency with respect to any of the issues we first raised over four months
ago. In the meantime, as you are most likely aware, GenX releases and emissions into
the environment have been the focus of considerable regulatory and enforcement
activity in North Carolina. Extensive activities are undeIway to investigate and assess

Taft Stettinigs1 g??z??s?ter LLP Chicago Cincinnati Cleveland Columbus Dayton Indianapolis! Northern Kentucky] Phoenix

November 28, 2017
Page 2

the impact of GenX releases and emissions into the air and area water bodies, which
has caused contamination of local drinking water supplies in North Carolina.

It is our understanding that at least some of the GenX materials'at issue in North
Carolina may be shipped to or used at the Washington Works plant in West Virginia,
where there could also be air and water emissions. Although we requested months ago
that your Agency clarify what it is doing to thoroughly investigate and assess the impact
of any such environmental releases from (and possible associated consent order
violations at) the Washington Works plant, no such information has been provided.

Once again, we request that WVDEP answer the questions we posed in our prior
correspondence and clarify what actions it has taken and plans to take to investigate the
extent to which the community outside the Washington Works plant' In Wood County,
West Virginia has been exposed to GenX and the steps that will be taken to address
and abate any potential threat to human health or the environment posed by such .

exposure.

Also we ask that WVDEP take action to adopt drinking water standards for
PFOA and PFOS that are more in line with the most recent scientific information on
these chemicals. The State of New Jersey?s Drinking Water Quality institute recently
reviewed the more current literature and has now recommended a O. 014 standard
for PFOA In drinking water and a 0 013 standard for PFOS In drinking water. (See

attachments).

Thank you.

  
  

Very uly your? 

obert A. BIlo

cc: Mary B. Coe, Esq. (US EPA Region Regional Counsel) (w/attachs)

2119696331

Maximum Contaminant Level
Recommendation for
Per?uorooctanoic Acid in Drinking Water

Basis and Background

. New Jersey Drinking Water Quality Institute

March 15, 2017

Executive Summary

A

The New Jersey Drinking Water Quality Institute (the Institute) was established by the 1984 amendments to.the .
New Jersey Safe Drinking Water Act (SDWA) at N.J.S.A. 20. It is charged with developing standards
(Maximum Contaminant Levels; MCLs) for hazardous contaminants in drinking water and for recommending

I those standards to the New Jersey Department of Environmental Protection (NJDEP). In 2014, New Jersey 
Department of Environmental Protection Commissioner Bob Martin requested that the Institute recommend
MCLs for perfluorooctanoic acid (PPOA) and tWo other long-chain per?uorinated compounds 
per?uorononanoic acid (PFNA) and perfluorooctanesulfOnic acid (PFOS). The Institute recommended an
MCL for PFNA on July 1, 2015, and it now recommends an MCL for PPOA herein.

Three subcommittees are established within the Institute to address the essential considerations for development
of MCLs as outlinedin the New Jersey SDWA. The Health Effects Subcommittee is reSponsible for
recommending health-based levels (Health?based MCLs) for contaminants of concern, the Testing
Subcommittee is responsible for evaluating and recommending appropriate analytical methods and developing
Practical Quantitation Levels the levels to which a contaminant can be reliably measured by drinking
water laboratories), and the Treatment Subcommittee 1s responsible for evaluating best available treatment
technologies for removal of the contaminants of concern from drinking water.

The three Institute subcommittees have reviewed the available scienti?c information relevant to the health
effects, analytical methods, and treatment options associated with PPOA. Detailed documents presenting the
technical basis for each of the .subcommittee?s recommendation are attached in Appendices A, B, and C.

Also- attached is an additional document presenting the Health Effects Subcommittee?s response to technical.
public comments. As the Drinking Water Quality Institute (DWQI) serves as an advisory body which makes
recommendations to the NJDEP and recommendation is not a rulemaking that is subject to the
requirements of the Administrative Procedure Act, a formal response to public comments received on draft
subcommittee documents is not required. However, the subcommittee wanted an opportunity to address public
comments in more detail than a presentation would allow, in order to provide clari?cation with respect to its
draft document and to address any changes made to the draft document based on those comments when
appropriate. I

The Health Effects Subcommittee used a risk assessment approach intended to protect for chronic drinking
water exposure to develop a Health-based MCL of 14 ng/L (0.014 ug/L), and the Testing Subcommittee

. developed an analytical PQL of 6 ng/L (0.006 ug/L). The Treatment Subcommittee recommended that granular
activated carbon or an equally ef?cient treatment removal technology can be used when PFOA is detected
above the recommended MCL, subject to on?site pilot testing performance results, and concluded that the
availability of treatment options is not anticipated to be a limiting factor in the development of a recommended 
MCL for PFOA or the other two PFCs (PFNA and PEG S) that have been, or will be, evaluated by the Institute.
An additional benefit of the treatment technologies used to remove PFOA is that they also remove other
organic chemicals, natural organic compounds, and other compounds affecting taste and odor that may
be present. 

Since neither treatment removal nor analytical methods are limiting factors for achieving the Health- based MCL
of 14 ng/L (0. 014 lag/L), the Institute recommends an MCL for PPOA of 14 ng/L (O. 014 ug/L) to the
Department as both health protective and technically feasible.















DRAFT FOR PUBLIC COMMENT

PUBLIC RE VIE WDRAF 

HEALTH-BASED MAXIMUM CONTAMINAN LEVEL
SUPPORT DOCUMENT:
PERFLUOROOCTANE SULFONATE (PFOS)

(CAS 1763-23-1; Chemical Formula: 

New Jersey Drinking Water Quality Institute
Health Effects Subcommittee
. November 15, 2017

Subcommittee Members:
Jessie A. Gleason, M.S.P.H., Chair
Keith R. Cooper, 
Judith B. Klotz, M.S., 
Gloria B. Post, D.A.B.T.
George Van Orden, 

DRAFT COMMENT

ABSTRACT .

A Health-based Maximum Contaminant Level (Health-based MCL) for per?uorooctane
sulfonate (PFOS) was developed using a risk assessment approach intended to protect for
chronic (lifetime) drinking water exposure. A public health-protective approach in developing a
Health?based MCL based on animal toxicology data is supported by epidemiological
associations of PF OS 'with health-effects in the general population, as well as its biological
persistence and bioaccumulation from drinking water in humans. Both non-carcinogenic and
carcinogenic effects were evaluated for Health-based MCL development. PFOS causes a number
of different types of toxicological effects in animals including hepatic, endocrine, developmental,
immune System toxicity, and hepatocellular and thyroid tumors. The most sensitive non-cancer
effect with data needed for Health-based MCL development was identi?ed as immune
suppression, specifically, a decrease in antibody response to an exogenous antigen challenge
plaque-forming cell response) following 60 days of PFOS exposure in adult male mice
(Dong et al., 2009). Use of Dong et al. (2009) as the quantitative basis for the Health-based
MCL is supported by decreased plaque?forming cell response in mice in other studies and by the
association of PFOS with decreased vaccine response in humans within the general population.
A Target Human Serum Level (analogous to a Reference Dose but on a serum level basis) of 23
ng/ml was developed by applying a total uncertainty factor of 30 to the PFOS serum level, 674
ng/ml, at the No Observed Adverse Effect Level (N OAEL) in Dong et al. (2009). A clearance
factor (8.1 .x 10'5 L/kg/day) which relates serum PFOS concentrations to human external PF OS
doses was applied to the Target Human Serum Level to develop a Reference Dose of 1.8
ng/kg/day. Default, values for drinking water exposure assumptions (2 L/day water consumption;
70 kg body weight) and Relative Source Contribution factor were used to deveIOp a
Health?based MCL of 13 ng/L. caused liver and thyroid tumors in a chronic rat study and
was characterized as having ?suggestive evidence of carcinogenic potential,? consistent with the
conclusion of USEPA Office of Water. Cancer risk was estimated based on dose?response
modeling of liver tumors in female rats. It was concluded that the cancer risk assessment is too
uncertain for use as the basis of the Health-based MCL. However, the estimated cancer risk at
the Health?based MCL of 13 ng/L is close to the New Jersey cancer risk goal of one in one
million. The Health-based MCL of 13 ng/L based on immune system toxicity is therefore
considered to be both scienti?cally appropriate and health protective.