HomeMy WebLinkAboutNC0000353_Wasteload Allocation_19911211NPDES DOCUMENT SCANNING COVER SHEET
NPDES Permit:
NC0000353
The Feldspar Corporation
Document Type:
Permit Issuance
W(ate1oadXllocatioi
Authorization to Construct (AtC)
Permit Modification
Complete File - Historical
Engineering Alternatives (EAA)
Correspondence
Owner Name Change
Instream Assessment (67b)
Speculative Limits
Environmental Assessment (EA)
Document Date:
December 11, 1991
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State of North Carolina
Department of Environment, Health, and Natural Resources
Asheville Regional Office
James G. Martin, Governor
William W. Cobey, Jr., Secretary
DIVISION OF ENVIRONMENTAL MANAGEMENT
WATER QUALITY SECTION
MEMORANDUM
TO:
THROUGH:
FROM:
SUBJECT:
December 11, 1991
Trevor Clements, Head
Technical Support Branc}
Forrest R. Westall
Regional Water Qualn
Michael R. Parker
Environmental Specialist
upe1 visor
Ann B. Orr
Regional Manager
R€CFIVEr
r.. `991
Procedure for Development of NPDES Permit Limits
for The Feldspar Corporation, K-T Feldspar Corporation,
Unimin Corporation -Mica Operations and Unimin
Corporation -Quartz Oper.•ati.oni
Mitchell and Avery Counties
Attached to this memorandum is the pi.oredure used to develop the
fluoride and total solids limits for tl)e four Feldspar Mining
Industries in Mitchell and Avery County. Proposed limits for each
facility are enclosed. Unimin Corporation -Mica Operations in their new
application have indicated their intention to initiate operations which
will include fluoride bearing wastewater nncl a second discharge. This
scenario was included in the existing NPDES Permit's for each company
as Configuration IV. Since all of the 01-.h'i- companies have indicated
that they have no plans to change operation all of the permits have
been drafted with only one set of final effluent limitations. These
final limits are exactly like Configuration IV in the existing NPDES
Permit for each of the four facilities.
Also, since the NPDES Permits were issued the North Toe River has
been classified "WS-III-trout" in the area where Unimin
Corporation -Mica Operations discharge. However, the Town of Spruce
Pine is now proposing to withdraw water above this discharge. Refer to
the map enclosed with the proposed effluent. limits.
Interchange Building, 59 Woodfin Place, Asheville, N.C. 28801 • Telephone 704-251-6208
An Equal Opportunity Affirmative Action Employer
r
Trevor Clements Memo
December 11, 1991
Page Two
It is requested that the Technical Support Branch review the
proposed effluent limits for the four permits. Provided that there is
concurrence with the proposed effluent limits it is. recommended that
the permits be submitted to public notice.
If you have questions, please call. Mr. Westall or myself at
704/251-6208.
xc: Dale 0vercash
MRP
Enclosures
Department of
James G. Martin, Governor
MEMORANDUM
)
State of North Carolina
Natural Resources and Community Development
Asheville Regional Office
S. Thomas Rhodes, Secretary
DIVISION OF ENVIRONMENTAL MANAGEMENT
WATER QUALITY SECTION
TO: Steve Tedder, Supervisor
Technical Services
Meg Kerr
Technical Services
Randy Dodd
Technical Services
THROUGH: Forrest R. Westall
Water Quality Regions
October 3, 1986
visor
FROM: Michael R. Parker, Environmental Specialist
ge
Asheville Regional Office
SUBJECT: Procedure for Development of NPDES Permit Limits
for The Feldspar Corporation, Indusmin, Inc.,
International Minerals and Chemical Corporation and
Unimin, Corporation
Mitchell and Avery Counties
Attached to this memo is the procedure used to develop the
fluoride and total suspended solids limits for the Feldspar Mining
Industries in Mitchell and Avery Counties. It is requested that new
wasteload allocations be prepared in accordance with the proposed
limits.
If you have questions, please call Mr. Westall or myself at
704/253-3341.
MRP:ls
Enclosure
Interchange Building, 59 Woodfin Place, P.O. Box 370. Asheville, N.C. 28802-0370 • Telephone 704-253-3341
1n Fn.1.11 (•)nni,.*,inity Attirmarn. Fmnlo yr
PROCEDURE FOR DEVELOPMENT OF NPDES PERMIT LIMITS
FOR THE FELDSPAR CORPORATION, INDUSMIN, INC.,
INTERNATIONAL MINERALS AND CHEMICAL CORPORATION
AND UNIMIN, INC.
Discussion
As a result of the reduction of total 'available fluoride (F1)
allocation wasteload to the river, the addition of another F1 user,
and changes in production figures since allocations were made previ-
ously, the Asheville Regional Office developed a questionnaire on
process activities to be completed by each company discharging F1 to
the North Toe River to assist in a new allocation effort. The
results of that questionnaire will be used to develop individual
allocations of fluoride for each facility. Confidentiality of the
ore production was requested by each company. This information is on
file in the Central Office.
The objective of this process is simple, but the mechanics are
difficult. The Environmental Management Commission has a policy of
providing equivalent allocations to each discharge affecting the same
water quality limited stream segment. For a more clearly defined
equivalent allocation example, let us look at BOD. If two dis-
charges to the same segment are water quality limited (more restric-
tive than minimum treatment requirements (i.e. secondary for
domestic -type wastes and Environmental Protection Agency (EPA)
guideline requirements for industrial process wastes); then
allocations are set by equivalent reductions in minimum treatment
requirements. For illustration, say one is domestic and the other
discharge is composed of process industrial wastewater, then the BOD
in the domestic is reduced equivalently from secondary levels and the
process reduced the same percentage from'the applicable EPA guideline
allowance until dissolved oxygen standards are complied with.
Equivalent allocations is a concept related to riparian rights.
Typically, riparian issues revolve around water use, however, in
developing wasteload allocations to a common receiving stream,
assimilative capacity is the resource available. Each allocation
must allow that qualified user a rightful share of the resource.
Since the resource is fixed in size, then the agency responsible for
allocation must find some way to distribute the capacity in a manner
that equivalently maintains each user's right. A qualified user in
this respect is the riparian property owner with legal access to the
resource. It is important to recognize that assimilative capacity as
a riparian commodity is not necessarily related to water use from the
stream where a user needs to discharge waste. In fact, because of
the nature of assimilative capacity, its allocation cannot be based
upon the quantity of water used. It would be extremely unfair and
not reflective of relative treatment burden to give a smaller alloca-
tion to a user that for example recycles wastewater in the production
process. The amount of final product produced would be a much better
indicator. This same reasoning must apply when considering that a
-2-
user's water supply may be relatively independent of the surface
waters where treated wastewater would be discharged (i.e. well, lake
on a tributary, public water system). Riparian rights are also
considered to be available to all qualified users (those with legal
access). As a result, property owners that have not in the past
exercised their right to a particular aspect of riparian resources
such as fluoride assimilative capacity cannot be refused that right
just because they chose not to use it in the past. However, "new
source" discharges have, within the EPA guideline process, been
treated somewhat differently because of treatment technology avail-
ability and the opportunity with new construction to incorporate
current environmental control systems. This provides some basis for
adjusting the allocation for new users but not for denying one. With
the respect to the issue of riparian rights, the allocation process
presented here will consider a user's right to the resource under
review, that being assimilative capacity.
In the situation under review on the North Toe River, there are
no approved EPA guidelines; therefore, the beginning basis must be
developed. With the objective of a fair and equitable reallocation
for each user, the factors used to set the allocations must be stable
and consistent. The factors must not reward poor operation or
inefficient production but, must reflect the burden of removal
accurately. With these criteria it is possible to eliminate several
factors provided in the questionnaires. First, total raw ore feed
tonnage on site is an inappropriate factor to use. Total feed
tonnage does not necessarily reflect a representative comparison of
how much fluoride wastewater will be produced. In addition and,
similar in some respects, the feed tonnage to operations using
fluorides is not an appropriate factor because it may improperly give
differing Fl allocations when comparing several operations just due
to process control activities within feldspar or guartz production.
Specifically, if one company can render higher feldspar per ton of
feed to the process, using feed tonnage would therefore cause that
plant to receive a relatively lower allocation of F1 even through
actual finished product could be equal to or greater than the other
plant.
Without question, the factor most appropriate for projecting
fluoride allocations is finished feldspar and quartz products.
Finished product figures are far and away the favored factor in EPA's
guidelines. The basic concept of using production is attractive in
itself. Across a particular manufacturing category there is typic-
ally variation in production techniques, waste treatment technology,
management, market, and many other factors. The company that can
apply the most effective use of raw materials, develop or locate in
good market situations, and effectively comply with federal and local
laws is going to prosper. By using finished product figures as the
basis for wastewater controls, regulatory agencies are allowing the
other market factors to function freely. It is not the responsi-
-3-
bility of environmental agencies to develop controls which adjust
market factors.
The previous discussion clearly illustrates why exact quantities
of chemicals used in a process should not be an allocation factor,
but it is important to briefly review the use of hydrofloric (HF)
acid in feldspar and high purity quartz production. The use of this
chemical is a critical factor in determining a relative weighting
factor for feldspar verses quartz production.
There is considerable variability in the amount of HF each
company uses or projects it will use to process quartz. This is a
reflection of two basic factors: 1) variations of process feeds and
2) a lack of actual operating knowledge about the process. The
second factor is certainly an important issue in developing a F1
wasteload credit for quartz production. Only IMC is today producing
high purity quartz. Both Feldspar and Unimin have fairly solid plans
underway to install quartz production. Even considering variability
in production, it is certain that the reliability of the data pro-
vided from a firm already producing a product is higher than that of
a company not producing the same product. In this same respect, the
confidence placed in projections from a company on the verge of
adding the process will be higher than that placed in figures from a
company in the initial stages of developing a quartz production
program. This might be better illustrated by looking at the quartz
data in the following table:
Quartz Production Information
Final Pro- Gals.
Quartz Feed HF Solution duction-- HF/tons
Tonnage Used % Actual HF Quartz Quartz
Facility tons/mo. gal/mo. In Solution tons/mo. Produced
Feldspar 1910 24000 70 1150 20.8
Indusmin 6424 327000 70 4800 68.1
IMC 3319 30135 70 2766 10.9
Unimin 1955 47500 70 1750 27.1
Clearly, both the level of quartz output and the HF needed as
provided by Indusmin is out of proportion to the other facilities.
Therefore, those figures should not be used in making a weighting
factor for quartz production.
-4-
In producing a final allocation factor, it is necessary to
weight quartz production higher than feldspar production. Even
though HF is used in the quartz process to "polish" or increase
quartz purity, HF used per ton of product is much higher for quartz
production than for feldspar production. Thus, fluoride waste from
the quartz operation will contain higher quantities of F1, and
therefore, represent a greater treatment burden. To develop the
weighting factor, the feldspar data must be examined:
Facility
Feldspar
Indusmin
INC
Unimin
Feldspar Production Information
Feldspar Feed
Tonnage HF Used
tons/mo. gal/mo.
34233
24372
22003
8833
2252
2070
3190
1585
Feldspar
Finished
tons/mo.
21181
17043
10710
5300
Gal HF (70%)
Per Ton
Feldspar
Produced
0.11
0.12
0.30
0.30
Feed Tonnage
to Feldspar
Produced
Ratio
1.6
1.4
2.1
1.7
Currently, only Unimin is not producing feldspar. However,
because HF used and the feed tonnage to production tonnage ratio is
close to those shown for the other three companies, the UNIMIN
information will be considered in developing a weighting factor. HF
used per ton produced for feldspar averages 0.23 gal/ton (0.11 to
0.30 range). For quartz production this same factor averages 19.6
gal/ton (range 10.9 to 27.1, excluding the Indusmin information). On
the basis of this comparison and without respect to water use,
significantly more fluoride waste is created for every ton of high
purity quartz produced than is produced for every ton of finished
feldspar. Thus, when dividing the available fluoride wasteload, a
greater amount of fluoride (mass) should be allowed per ton of high
purity quartz than per ton of finished feldspar.
To decide upon a weighting factor for quartz production, it will
be necessary to examine several issues. Simply applying the HF use
ratios would result in what may be an excessive weighting factor--
19.6 divided by 0.23 equals 85.2 using the range of HF to quartz
produced ratios, 10.9 to 27.1, and the HF to feldspar produced
ratios, 0.11 to 0.30, a "calculated" weighting factor ranges from 246
to 36. This shows a variation of almost 7 to 1. It is also clear
that some of the waste handling technologies available for dealing
with fluoride wastewater apply to both the feldspar and quartz waste
streams. Recycle of fluoride contaminated water is an option that is
relatively independent to fluoride concentrations, provided that
wastewater containing fluoride is reused only in conjunction with
-5-
fluoride processes (fluoride interference with other ore processing
activities). Therefore, while the waste handling demands for pure
quartz are higher than for feldspar, that demand is likely to be
lower than indicated by HE' use information. Another factor available
that points to this conclusion is that IMC which has the only operat-
ing high purity quartz system, also has the lowest mass discharge of
three facilities. It is true, however, that IMC's wastewater control
system represents what the Regional Office considers the standard for
the industry. What these points show is that there are technologies
which can, when applied with a strong management commitment, effec-
tively reduce the quantity of fluoride released to the receiving
waters.
The final issue that must be discussed in recommending a weight-
ing factor, is certainly equal to those just noted: i.e.,the real
world impact of the facilities receiving the allocations. In this
matter we are dealingwith four separate industrial corporations
involved (or soon to be involved) as competitors in the same busi-
ness, all located in the same general area, and all sharing a common
riparian resource. Real and perceived conflicts make negotiating
very difficult. Add to this a common view from all the companies
that the fluoride standard is too restrictive and the recent emer-
gence of the fourth competitor and you have a sensitive environment
in which existing allocations must be reduced. The only way to
examine this aspect of the allocation process is to calculate fluo-
ride distributions for a variety of weighting factors. In doing so,
it will be necessary to provide the distributions over the entire
range of near term configurations:
Configuration I - .Unimin Corporation not producing feldspar or
quartz. The Feldspar Corporation operating
without the planned high purity quartz
facility, Indusmin at current feldspar
production, and IMC producing feldspar and high
purity quartz at current levels.
Configuration
II - Unimin Corporation not producing feldspar or
quartz, The Feldspar Corporation operating with
the high purity quartz facility and Indusmin,
Inc. and IMC as described in I.
Configuration III
Configuration IV
- Unimin Corporation producing feldspar and quartz,
and other three companies as described in I.
- Unimin Corporation as in III, The Feldspar
Corporation producing high purity quartz and the
other two companies as described in I.
Configuration V
-6-
- Unimin Corporation as in III, The Feldspar
Corporation and Indusmin, Inc. producing high
purity quartz and IMC as described in I.
Configuration VI - The Feldspar Corporation, IMC, Indusmin, Inc.
and Unimin Corporation as described in V and
Indusmin, Inc. with a 50% expansion of the
feldspar plant.
The process in developing a specific allocation can be described
as follows:
A. Calculate an allocation factor (Af) for each facility
within a specific configuration:
Af = F + Wf x Q
where:
Af = Allocation factor,
F = Finished feldspar in tons per month (information
supplied by the company),
Wf = Weighting factor for quartz production,
Q = Finished high purity quartz, tons/mo.
B. Project a percentage share (PS) of available fluoride for
each facility under each configuration.
PS = Af x 100
SUM Af
where:
SUM Af = sum of all four Af ' s for a particular
configuration.
C. Calculate the specific fluoride allocation (A-lbs/day) for
each company.
A = PS x AW
100
where:
AW = Available wasteload to North Toe River = 574
lbs/day.
-7-
For comparison purposes the following information is provided:
Facility Fluoride Information
F1 Dis-
charged
Maximum
F1 Current % Of Monthly % Of Most Current % Of
Facility Permit Limits Total 1985-86 Total Fl Allocation Total
Unimin *
Feldspar 279.1 38 256 38 218 38
Indusmin 220.3 30 261 39 172 30
IMC 235.0 32 160 23 184 32
All Figures Monthly Average
lbs/day
*Unimin projects 125#/day.
-8-
Fluoride and Quartz Production Summary
Facility
Unimin
Feldspar
Indusmin
IMC
*50% expansion at Indusmin.
Facility
Wf = 1
Unimin
Feldspar
Indusmin
IMC
Wf = 85
Unimin
Feldspar
Indusmin
IMC
Wf = 6
Unimin
Feldspar
Indusmin
IMC
Finished Feldspar
tons/mo.
5300
21181
17043 (25443*)
10710
Finished Quartz
tons/mo.
Comparison Wasteloads Under Configuration I
AF
0
21181
17043
13476
51700
0
21181
17043
245820
284044
0
21181
17043
27306
65530
PS (%)
0
41
33
26
100
0
7
6
87
100
0
32
26
42
100
1750
1150� 1� �,•-
500 410
2766
A (#/day)
0
235
189
150
574
0
40
34
500
574
0
183
149
242
574
-9-
Comparison Wasteload Under Configuration IV
Wf = 1
Unimin 7050 '12 69
Feldspar 22331 37 212
Indusmin 17043 28 161
IMC 13476 23 132
59900 100 574
Wf = 6
Unimin 15800 18 103
Feldspar 28081 32 183
Indusmin 17043 19 109
IMC 27306 31 179
88230 100 574
These five comparison allocation distributions are presented as
illustration of the effects of different weighting factors (Wf). In
reviewing this issue, the Division of Environmental Management staff
examined distributions over all four configurations with Wf's of 1,
2, 3, 6, 10, and 85. In comparing all these figures with the
Facility Fluoride Information table and considering all the issues
discLssed in this report, it was concluded that a Wf of six (6)
represented a reasonable weighting of quartz production fluoride
waste burden and produces a fair fluoride allocation distribution
that is achievable with existing technologies. It is clear from the
compe.risons presented that the range of possible weighting factors
represents, at the low end, an unfair situation to quartz producers
and the high end an unrealistic disruption in the previous alloca-
tion pattern. A value of six for Wf is something of a middle ground
position, providing each user a piece of the allocation pie large
enough to permit compliance.
In applying this approach there are some issues which must be
addressed. Permits should not be based on projected production
activities, but revisions to the distribution of Fl allowable should
be adjusted when the new process is added (i.e. configuration
shifts). Initially, no high purity quartz production at Feldspar,
Unimin or Indusmin will exist, and the allocation would not change
until these processes came on line. Because Unimin does not now
produce feldspar, no allocation for F1 would apply until such produc-
tion exists. The following is a table showing allocation with Wf= 6:
Allocations Proposed
Facility AF PS (%) A (#/day)
Configuration I
Unimin 0 0 0
Feldspar 21181 32 183
Indusmin 17043 26 149
IMC 27306 42 242
65530 100 574
Configuration II
Unimin 0 0 0
Feldspar 28082 39 224
Indusmin 17043 23 132
IMC 27306 38 218
72431 100 574
Configuration III
Unimin 15800 19 109
Feldspar 21181 26 149
Indusmin 17043 21 121
IMC 27306 34 195
81330 100 574
Configuration IV
Unimin 15800 18 103
Feldspar 28081 32 183
Indusmin 17043 19 109
IMC 27306 31 179
88230 100 574
Configuration V
Unimin 15800 17 98
Feldspar 28081 31 178
Indusmin 20043 22 126
IMC 27306 30 172
91230 100 574
Configuration VI
Unimin 15800 16 92
Feldspar 28081 28 161
Indusmin 28443 29 166
IMC 27306 27 155
99630 100 574
-11-
Unimin Corporation's TSS effluent limitations will remain 20
mg/1 daily average, 30 mg/1 daily maximum until the Company starts to
produce feldspar. The limits will then change to 707 lbs/day and
1414 lbs/day daily average and daily maximum. These limits were
developed using the EPA draft development document - Mineral Mining
and Processing Industry.
589 tons x 0.6 lb x 2000 lbs = 707 lbs
day of raw ore 1000 lbs. product ton
day of TSS
Effluent limitations for TSS, pH and turbidity and flow for The
Feldspar Corporation, Indusmin, Inc. and IMC are the same as those
limits proposed in the last wasteload allocation dated May 5, 1986.
A copy of the proposed effluent limits for Configurations I - VI
for each company is attached.