Identification of Non-Hazardous Materials That Are Solid Waste, 41-61 [E8-30987]

Agencies

• ENVIRONMENTAL PROTECTION AGENCY

[Federal Register Volume 74, Number 1 (Friday, January 2, 2009)]
[Proposed Rules]
[Pages 41-61]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E8-30987]


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Proposed Rules
                                                Federal Register
________________________________________________________________________

This section of the FEDERAL REGISTER contains notices to the public of 
the proposed issuance of rules and regulations. The purpose of these 
notices is to give interested persons an opportunity to participate in 
the rule making prior to the adoption of the final rules.

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Federal Register / Vol. 74, No. 1 / Friday, January 2, 2009 / 
Proposed Rules

[[Page 41]]



ENVIRONMENTAL PROTECTION AGENCY

40 CFR Part 257

[EPA-HQ-RCRA-2008-0329; FRL-8758-5]
RIN 2050-AG44


Identification of Non-Hazardous Materials That Are Solid Waste

AGENCY: Environmental Protection Agency (EPA).

ACTION: Advanced notice of proposed rulemaking (ANPRM).

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SUMMARY: The Environmental Protection Agency (EPA or Agency) is seeking 
comment on which non-hazardous materials are or are not solid waste 
under the Resource Conservation and Recovery Act (RCRA). The Agency is 
also seeking comment on a number of specific questions concerning the 
meaning of ``solid waste'' under RCRA, as it applies to non-hazardous 
waste programs. We are issuing this ANPRM to assist the Agency in 
developing certain standards under sections 112 and 129 of the Clean 
Air Act (CAA). The meaning of ``solid waste'' as defined under RCRA is 
of particular importance since CAA section 129 states that the term 
``solid waste'' shall have the meaning ``established by the 
Administrator pursuant to [RCRA].''

DATES: Comments must be received on or before February 2, 2009.

ADDRESSES: Submit your comments, identified by Docket ID No. EPA-HQ-
RCRA-2008-0329, by one of the following methods:
     https://www.regulations.gov: Follow the on-line 
instructions for submitting comments.
     E-mail: Comments may be sent by electronic mail (e-mail) 
to: rcra-docket@epa.gov, Attention Docket ID No. EPA-HQ-RCRA-2008-0329. 
In contrast to EPA's electronic public docket, EPA's e-mail system is 
not an ``anonymous access'' system. If you send an e-mail comment 
directly to the docket without going through EPA's electronic public 
docket, EPA's e-mail system automatically captures your e-mail address. 
E-mail addresses that are automatically captured by EPA's e-mail system 
are included as part of the comment that is placed in the official 
public docket, and made available in EPA's electronic public docket.
     Fax: Comments may be faxed to 202-566-9744, Attention 
Docket ID No. EPA-HQ-RCRA-2008-0329.
     Mail: Advanced Notice of Proposed Rulemaking--
Identification of Non-Hazardous Materials That Are Solid Waste, 
Environmental Protection Agency, Mail code: 2822T, 1200 Pennsylvania 
Ave., NW., Washington, DC 20460. Please include a total of two copies. 
Attention Docket ID No. EPA-HQ-RCRA-2008-0329.
     Hand Delivery: Deliver two copies of your comments to the 
Advanced Notice of Proposed Rulemaking--Identification of Non-Hazardous 
Materials That Are Solid Waste, EPA/DC, EPA West, Room 3334, and 1301 
Constitution Ave., NW., Washington, DC 20460. Attention Docket ID No. 
EPA-HQ-RCRA-2008-0329. Such deliveries are only accepted during the 
docket's normal hours of operation (8:30 a.m. to 4:30 p.m., Monday 
through Friday, excluding legal holidays), and special arrangements 
should be made for deliveries of boxed information.
    Instructions: Direct your comments to Docket ID No. EPA-HQ-RCRA-
2008-0329. EPA's policy is that all comments received will be included 
in the public docket without change and may be made available online at 
https://www.regulations.gov, including any personal information 
provided, unless the comment includes information claimed to be 
Confidential Business Information (CBI) or other information whose 
disclosure is restricted by statute. Do not submit information that you 
consider to be CBI or otherwise protected through https://
www.regulations.gov or e-mail. The https://www.regulations.gov Web site 
is an ``anonymous access'' system, which means EPA will not know your 
identity or contact information unless you provide it in the body of 
your comment. If you send an e-mail comment directly to EPA without 
going through https://www.regulations.gov, your e-mail address will be 
automatically captured and included as part of the comment that is 
placed in the public docket and made available on the Internet. If you 
submit an electronic comment, EPA recommends that you include your name 
and other contact information in the body of your comment and with any 
disk or CD-ROM you submit. If EPA cannot read your comment due to 
technical difficulties and cannot contact you for clarification, EPA 
may not be able to consider your comment. Electronic files should avoid 
the use of special characters, any form of encryption, and be free of 
any defects or viruses. For additional information about EPA's public 
docket, visit the EPA Docket Center homepage at https://www.epa.gov/
epahome/dockets.htm. We also request that interested parties who would 
like information they previously submitted to EPA to be considered as 
part of this action, identify the relevant information by docket entry 
numbers and page numbers.
    Docket: All documents in the docket are listed in the https://
www.regulations.gov index. Although listed in the index, some 
information is not publicly available, e.g., CBI or other information 
whose disclosure is restricted by statute. Certain other material, such 
as copyrighted material, will be publicly available only in hard copy. 
Publicly available docket materials are available either electronically 
in https://www.regulations.gov or in hard copy at the OSWER Docket, EPA/
DC, EPA West, Room 3334, 1301 Constitution Ave., NW., Washington DC. 
The Public Reading Room is open from 8:30 a.m. to 4:30 p.m., Monday 
through Friday, excluding legal holidays. The telephone number for the 
Public Reading Room is (202) 566-1744, and the telephone number for the 
OSWER Docket is 202-566-0270.

FOR FURTHER INFORMATION CONTACT: For questions regarding the 
development of this ANPRM, contact Michael Galbraith, Office of Solid 
Waste (5302P), U.S. Environmental Protection Agency, Ariel Rios 
Building, 1200 Pennsylvania Avenue, NW., Washington, DC 20460-0002, 
telephone (703) 605-0567, e-mail address: galbraith.michael@epa.gov.

SUPPLEMENTARY INFORMATION:

I. General Information

A. Does This Action Apply to Me?

    Categories and entities potentially affected by this action 
include:

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                     Generators                                                                     Users
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        Major generator category            NAICS            Major boiler type and primary industry category                        NAICS
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Iron and Steel Mills....................     331111  Industrial Boilers:
                                                    ----------------------------------------------------------------------------------------------------
                                          .........  Food Manufacturing............................................  311, 312
Scrap Tires.............................  .........  Pulp and Paper Mills..........................................  322
Passenger cars and trucks...............        N/A  Chemicals and Allied Products.................................  325
Other rubber product manufacturing......     326290  Petroleum Refining............................................  324
                                          .........  Metals........................................................  331, 332
Logging.................................     113310  Other Manufacturing...........................................  313, 339, 321, 333, 336, 511, 326,
                                                                                                                      316, 327
Sawmills and Wood Preservation..........      32111
                                                    ----------------------------------------------------------------------------------------------------
Veneer, Plywood, and Engineered Wood          32121  Commercial Boilers:
 Product Manufacturing.
Pulp, Paper, and Paperboard Mills.......       3221  Office........................................................  813, 541, 921
Cattle Ranching and Farming.............       1121  Warehouse.....................................................  421,422
Hog and Pig Farming.....................       1122  Retail........................................................  441, 445-454
Poultry and Egg Production..............       1123  Education.....................................................  611
Sheep and Goat Farming..................       1124  Public Assembly...............................................  624,
Horses and Other Equine Production......     112920  Lodging, Restaurant...........................................  721, 722
Crop Production.........................        111  Health Care Facilities........................................  621
Support Activities for Crop Production..      11511  Other.........................................................  922140, others
Food Manufacturing......................        311
                                                    ----------------------------------------------------------------------------------------------------
Beverage and Tobacco Product                    312  Common Non-Manufacturing Boilers:
 Manufacturing.
                                                    ----------------------------------------------------------------------------------------------------
Construction of Buildings...............        236  Agriculture (crop & livestock production).....................  111, 112, 115
Site Preparation Contractors............     238910  All Mining....................................................  212, 211
Landscaping Services....................     561730  Construction..................................................  235
Iron and Steel Mills....................     331111
                                                    ----------------------------------------------------------------------------------------------------
Fossil Fuel Electric Power Generation...     221112  Other Boilers:
                                                    ----------------------------------------------------------------------------------------------------
Cement Manufacturing....................     327310  Electric Utility Boilers......................................  221100
Bituminous Coal and Lignite Surface          212111
 Mining.
Bituminous Coal Underground Mining......     212112  Non HW Burning Cement Kilns...................................  327310
Anthracite Mining.......................     212113
Sewage Treatment Facilities.............     221320
Solid Waste Landfill....................     562212
Metal-casting industry..................       3115
Glass and Glass Product Manufacturing...       3272
Packaging...............................      32611
Plastic manufacturers...................     325211
Electrometallurgical Ferroalloy Product      331112
 Manufacturing.
Recycling services for degreasing            325998
 solvents manufacturing.
Solvent dyes manufacturing..............     325132
Solvents made in petroleum refineries;       324110
 and
Automotive repair and replacement shops.     811111
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    This table is not intended to be exhaustive, but rather provides a 
guide for readers regarding entities likely to be impacted by this 
action. This table lists examples of the types of entities of which EPA 
is aware that could potentially be affected by this action. Other types 
of entities not listed could also be affected. To determine whether 
your facility, company, business, organization, etc., is affected by 
this action, you should examine the applicability criteria in this 
rule. If you have any questions regarding the applicability of this 
action to a particular entity, consult the person listed in the 
preceding FOR FURTHER INFORMATION CONTACT section.

B. What Should I Consider as I Prepare My Comments for EPA?

    1. Submitting CBI. Do not submit this information to EPA through 
https://www.regulations.gov or e-mail. Clearly mark the part or all of 
the information that you claim to be CBI. For CBI information in a disk 
or CD ROM that you mail to EPA, mark the outside of the disk or CD ROM 
as CBI and then identify electronically within the disk or CD ROM the 
specific information that is claimed as CBI. In addition to one 
complete version of the comment that includes information claimed as 
CBI, a copy of the comment that does not contain the information 
claimed as CBI must be submitted for inclusion in the public docket. 
Information so marked will not be disclosed except in accordance with 
procedures set forth in 40 CFR part 2.
    2. Tips for Preparing Your Comments. When submitting comments, 
remember to:
     Identify the rulemaking by docket number and other 
identifying information (subject heading, Federal Register date and 
page number).
     Follow directions--The agency may ask you to respond to 
specific questions or organize comments by referencing a Code of 
Federal Regulations (CFR) part or section number.
     Explain why you agree or disagree, suggest alternatives, 
and substitute language for your requested changes.

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     Describe any assumptions and provide any technical 
information and/or data that you used.
     If you estimate potential costs or burdens, explain how 
you arrived at your estimate in sufficient detail to allow for it to be 
reproduced.
     Provide specific examples to illustrate your concerns, and 
suggest alternatives.
     Explain your views as clearly as possible, avoiding the 
use of profanity or personal threats.
     Make sure to submit your comments by the comment period 
deadline identified.

II. Background

    The United States Court of Appeals for the District of Columbia 
Circuit vacated and remanded two Agency rules promulgated under the 
CAA--The Commercial and Industrial Solid Waste Incineration (CISWI) 
definitions rule (``CISWI Definitions Rule''), issued under CAA section 
129, and the Industrial Boilers Maximum Achievable Control Technology 
(MACT) standards rule (``Boilers Rule''), issued under CAA section 112. 
The court concluded that EPA erred by excluding units that combust 
solid waste for the purposes of energy recovery from the Definitions 
Rule and including such units in the Boilers Rule. In response to the 
court's decision, EPA is preparing to establish new standards under CAA 
sections 112 and 129 for the various units subject to each section.
    Congress added section 129 to the CAA in 1990 specifically to 
address emissions from solid waste combustion. CAA section 129 directs 
EPA to promulgate emission standards for ``solid waste incineration 
units.'' 42 U.S.C. 7429(a)(1). The term ``solid waste incineration 
unit'' is defined, in pertinent part, to mean ``any facility which 
combusts any solid waste material from commercial or industrial 
establishments * * *'' Id. at section 7429(g)(1). However, the CAA 
excludes the following types of units from classification as solid 
waste incineration units that are subject to the section 129 standards: 
(1) Incinerators or other units required to have a permit under section 
3005 of RCRA; (2) materials recovery facilities (including primary and 
secondary smelters) which combust waste for the primary purpose of 
recovering metals; (3) qualifying small power production facilities, as 
defined in section 3(17)(C) of the Federal Power Act, or qualifying 
cogeneration facilities, as defined in section 3(18)(B) of the Federal 
Power Act, which burn homogeneous waste (such as units which burn tires 
or used oil, but not including refuse-derived fuel) for the production 
of electric energy or in the case of qualifying cogeneration facilities 
which burn homogeneous waste for the production of electric energy or 
steam or forms of useful energy (such as heat) which are used for 
industrial, commercial, heating or cooling purposes, or (4) air curtain 
incinerators, provided that such incinerators only burn wood wastes, 
yard wastes and clean lumber and that such air curtain incinerators 
comply with the opacity limitations to be established by the 
Administrator by rule. CAA section 129 also states that the term 
``solid waste'' shall have the meaning ``established by the 
Administrator pursuant to the Solid Waste Disposal Act'' Id. at 
7429(g)(6).\1\ RCRA defines the term ``solid waste'' to mean ``* * * 
any garbage, refuse, sludge from a waste treatment plant, water supply 
treatment plant, or air pollution control facility and other discarded 
material including solid, liquid, semisolid, or contained gaseous 
material resulting from industrial, commercial, mining, and 
agricultural operations, and from community activities, but does not 
include solid or dissolved material in domestic sewage, or solid or 
dissolved materials in irrigation return flows or industrial discharges 
which are point sources subject to permits under section 402 of the 
Federal Water Pollution Control Act, as amended (86 Stat. 880), or 
source, special nuclear, or byproduct material as defined by the Atomic 
Energy Act of 1954, as amended (68 Stat. 923).'' Section 1004 (27).
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    \1\ CAA section 129 refers to the Solid Waste Disposal Act 
(SWDA). However, this act, as amended is commonly referred to as 
RCRA. Thus, the term, ``RCRA'' is used in place of SWDA in this 
Notice.
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A. CISWI Rule/CISWI Definitions Rule/Boiler Rule

    EPA fulfilled its statutory obligation under CAA section 129 when 
it promulgated a final rule setting forth performance standards and 
emission guidelines (EG) for Commercial and Industrial Solid Waste 
Incineration Units (referred to as the ``CISWI Rule''). 65 FR 75338 
(December 1, 2000). Under CAA section 129, the New Source Performance 
Standards (NSPS) and EG adopted for CISWI units must reflect the 
maximum degree of reduction in emissions of air pollutants that the 
Administrator determines is achievable, taking into consideration the 
cost of achieving such emission reduction, and any non-air quality 
health and environmental impacts and energy requirements. This level of 
control is commonly referred to as MACT. The Administrator may also 
distinguish among classes, types (including mass-burn, refuse-derived 
fuel, modular and other types of units), and sizes of units within a 
category in establishing such standards. Id. at 7429(a)(2).
    NSPS apply to new stationary sources--that is, sources whose 
construction begins after the NSPS is proposed or sources that are 
reconstructed or modified on or after a specified date. The EG are 
similar to the NSPS, except that they apply to existing sources--that 
is, sources whose construction begins on or before the date the EG are 
proposed, or sources that are reconstructed or modified before a 
specified date. Unlike NSPS, the EG are not enforceable until EPA 
approves a state plan or adopts a federal plan for implementing and 
enforcing them, and the state or federal plan becomes effective.
    The CISWI Rule established emission limitations for new and 
existing CISWI units for the following pollutants (or surrogates): 
cadmium, carbon monoxide, dioxins/furans, hydrogen chloride, lead, 
mercury, oxides of nitrogen (NOX), particulate matter (PM), 
sulfur dioxide (SO2), and opacity. In addition, the rule 
established certain monitoring and operator training and certification 
requirements. See 65 FR 75338 for a more detailed discussion of the 
CISWI Rule.
    The CISWI Rule was subject to judicial challenge in Sierra Club v. 
EPA (No. 01-1048) (D.C. Cir.) and a separate petition for 
reconsideration of the final rule. The petition argued that the final 
rule was procedurally defective because EPA had failed to provide 
adequate notice and an opportunity to comment on the definitions 
adopted in the final rule. Also, after promulgation of the CISWI Rule, 
the court issued its decision in Cement Kiln Recycling Coalition v. 
EPA, 255 F.3d 855 (D.C. Cir. 2001) (``Cement Kiln''). In this decision, 
the court rejected certain common elements of EPA's MACT methodology. 
As a result, EPA requested a voluntary remand of the CISWI Rule, in 
order to address concerns related to the issues that were raised by the 
court in Cement Kiln. The court granted the voluntary remand and 
remanded, without vacatur, the CISWI Rule back to EPA, thereby 
terminating the case (see Order dated September 6, 2001). Because the 
CISWI Rule was not vacated, its requirements remain in effect. See 
Sierra Club. v. EPA, 374 F. Supp.2d 30, 32-33 (D.D.C. 2005). In 
addition to taking a voluntary remand of the CISWI Rule, EPA also 
granted an administrative petition for reconsideration on February 17, 
2004 related to the definitions of ``solid waste,'' ``commercial or 
industrial

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waste'' and ``commercial and industrial solid waste incineration unit'' 
in the CISWI Rule.
    EPA responded to the petition for reconsideration on September 22, 
2005, by re-promulgating the definitions of ``solid waste,'' 
``commercial or industrial solid waste incineration unit'' and 
``commercial or industrial waste'' (the CISWI Definitions Rule). See 70 
FR 55568. In the CISWI Definitions Rule, EPA distinguished solid waste 
incinerators from boilers/furnaces based on the function of the units. 
Solid waste incinerators included units designed and operated to 
discard materials through high temperature combustion, but excluded 
units designed and operated to recover energy for a useful purpose.
    The CISWI Definitions Rule was the subject of judicial challenge in 
NRDC v. EPA (489 F.3d 1250 (D.C. Cir. 2007)) where the court vacated 
the definitions of ``commercial or industrial solid waste incineration 
unit'' and ``commercial or industrial waste.'' The court observed that, 
although the functional distinction EPA drew between boilers/furnaces 
and incinerators ``may well be reasonable,'' the statute unambiguously 
requires any unit that combusts ``any solid waste material at all''--
regardless of whether the material is being burned as a fuel--to be 
regulated as a ``solid waste incineration unit.'' Id. at 1260. The 
court also vacated and remanded the Boilers Rule, concluding that EPA 
erred by excluding units that combust solid waste for the purposes of 
energy recovery from the CISWI Rule and including such units in the 
Boilers Rule.
    Therefore, the critical issue in responding to the court's decision 
is for EPA to establish, under RCRA, which non-hazardous secondary 
materials \2\ constitute ``solid waste.'' This is necessary because, 
under the court's decision, any unit combusting any ``solid waste'' at 
all must be regulated as a ``solid waste incineration unit,'' 
regardless of the function of the combustion device. If a non-hazardous 
material is not a ``solid waste'' under RCRA and such material is 
burned for fuel value or used as an ingredient in a manufacturing 
process, then under the court's decision, the combustion unit would 
properly be regulated pursuant to CAA section 112. Alternatively, if 
such material is a ``solid waste'' under RCRA and is burned for fuel 
value or used as an ingredient in a manufacturing process and such 
ingredient is combusted, then the unit must be regulated under CAA 
section 129.
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    \2\ A secondary material is any material that is not the primary 
product of a manufacturing or commercial process, and can include 
post-consumer material, post-industrial material, and scrap. Many 
types of secondary materials have Btu or material value, and can be 
reclaimed or reused in industrial processes. For purposes of this 
notice, the term secondary materials include only non-hazardous 
secondary materials.
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B. Sections 112 and 129 of the CAA

    CAA section 112 requires EPA to promulgate regulations to control 
emissions of 187 \3\ hazardous air pollutants (HAP) from major sources 
\4\ in each source category listed by EPA under section 112(c). The 
statute requires the regulations to reflect the maximum degree of 
reduction in emissions of HAP that is achievable taking into 
consideration the cost of achieving the emission reduction, any non-air 
quality health and environmental impacts, and energy requirements. As 
noted previously, this level of control is commonly referred to as 
MACT.
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    \3\ EPA has delisted 3 of the 190 HAP initially listed in 
section 112(b)(1): Methyl ethyl ketone, glycol ethers, and 
caprolactam.
    \4\ A ``major source'' is any stationary source that emits or 
has the potential to emit considering controls, in the aggregate, 10 
tons per year or more of any HAP or 25 tons per year or more of any 
combination of HAP. CAA section 112(a)(1).
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    For new sources, MACT standards cannot be less stringent than the 
emission control achieved in practice by the best-controlled similar 
source (see CAA section 112(d)(3)). The MACT standards for existing 
sources cannot be less stringent than the average emission limitation 
achieved by the best-performing 12 percent of existing sources for 
categories and subcategories with 30 or more sources, or the best-
performing 5 sources for categories or subcategories with fewer than 30 
sources (Id). This level of control is usually referred to as the MACT 
``floor,'' the term used in the Legislative History.
    Like the CAA section 112 standards, the CAA section 129 standards 
are based on a MACT floor. Also, as with the section 112 standards, 
above-the-floor standards may be established where EPA determines it is 
``achievable'' taking into account costs and other factors. Although 
CAA section 129 ``establishes emission requirements virtually identical 
to section [112's],'' Nat'l Lime Ass'n v. EPA, 233 F.3d at 631, the two 
sections differ in three primary respects. First, CAA section 112 
requires that MACT standards be established for major sources of HAP 
emissions, but provides discretionary authority to establish MACT 
standards for area sources of HAP emissions.\5\ On the other hand, the 
CAA section 129 MACT standards apply across the board to all solid 
waste incineration units in a given category regardless of size. 
Second, CAA section 129 requires that emission standards be set for 
specific HAP and certain pollutants that are not classified as CAA 
section 112 HAP.\6\ Specifically, CAA section 129 requires numeric 
emission limitations for the following nine pollutants: Cadmium, carbon 
monoxide, dioxins/furans, hydrogen chloride, lead, mercury, 
NOX, particulate matter (total and fine), opacity (as 
appropriate), and SO2.\7\ The CAA section 129 pollutants 
listed above represent the minimum that must be regulated; EPA has the 
discretion to establish standards for other pollutants as well. Third, 
CAA section 129 includes requirements for operator training, pre-
construction site assessments, and monitoring that are not included in 
CAA section 112. See CAA section 129(a)(3), (c) and (d). Rather, CAA 
section 112's implicit authority and CAA sections 113 and 114's 
explicit authority is relied upon to include provisions as necessary to 
assure compliance with and enforcement of the emission limitations. It 
is important to note that CAA section 129(h)(2) specifies that no solid 
waste incineration unit subject to the performance standards under CAA 
sections 111 and 129 shall be subject to the standards under CAA 
section 112(d).
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    \5\ An ``area source'' is any stationary source of HAP that is 
not a major source. CAA section 112(a)(2). Area sources may be 
regulated under CAA section 112(d)(2) standards if the Administrator 
finds that the sources ``presen[t] a threat of adverse effects to 
human health or the environment (by such sources individually or in 
the aggregate) warranting regulation under this section.'' Section 
112(c)(3). Certain categories of area sources must be regulated in 
accordance with section 112(c)(3) and (k)(3)(B).
    \6\ This is in reference to the initial list of 190 HAPs 
provided by Congress.
    \7\ Of these nine pollutants, cadmium, dioxins/furans, hydrogen 
chloride, lead, and mercury are also regulated HAP pursuant to CAA 
section 112, and particulate matter and carbon monoxide are commonly 
used as surrogate emission standards to control specific CAA section 
112 HAP (e.g., CAA section 112 HAP metal and organic emissions).
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III. Beneficial Use of Secondary Materials

A. Introduction

    EPA supports exploring regulatory alternatives that achieve the 
following goals: Maximizing the usefulness of secondary materials in 
production, reducing or eliminating waste, conserving energy, and 
reducing harmful air emissions. Such alternatives should ensure 
protection of human health and the environment, and one alternative 
would be an integrated management approach that includes emissions and 
source reduction and

[[Page 45]]

recycling, as well as energy capture and resource recovery from 
secondary materials. For example, within the context of RCRA,\8\ the 
Agency seeks to achieve these goals through promotion of the use or 
reuse of various secondary materials, provided such reuse activity is 
protective of human health and the environment. EPA seeks to accomplish 
this in conjunction with our state partners through research, analysis, 
communication, and outreach.
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    \8\ RCRA Section 6901(c)--Materials: The Congress finds with 
respect to materials, that--(1) Millions of tons of recoverable 
material which could be used are needlessly buried each year; (2) 
methods are available to separate usable materials from solid waste; 
and (3) the recovery and conservation of such materials can reduce 
the dependence of the United States on foreign resources and reduce 
the deficit in its balance of payments.
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    To help put this discussion into context, the Agency notes that 
non-hazardous secondary materials are widely used today as fuels or 
ingredients in industrial processes. We expect this trend will continue 
with higher prices for energy and materials and advancing technology in 
secondary material use.
    The nature of what constitutes a legitimate fuel or ingredient 
reflects the availability of natural resources and technology 
development. The use of materials from a variety of non-traditional 
sources, including the use of energy-containing secondary materials, 
may have a significant role to play in our resource conservation 
efforts.
    The use of non-hazardous secondary materials as alternative fuels 
and ingredients in manufacturing processes using combustion has a long 
history, and is increasingly becoming an accepted characteristic of the 
modern industrial economy.\9\ Under conditions in the past, many 
secondary materials may have been managed as wastes--that is, they were 
discarded. However, if the cost of fossil fuel increases and technology 
advances, such materials become comparatively more valuable as an 
energy source, ingredient, or both. Furthermore, the use of some of 
these materials is likely to contribute to certain emission reductions 
and may increase other emissions.\10\
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    \9\ For example, use of tire-derived fuel in the cement industry 
began in Japan and Germany in the 1970s. See docket item titled 
``Scrap Tire Markets in the United States,'' RMA, November 2006. 
Also, the market for woody biomass is strong in Europe, where this 
material sells for $100 to $125 per ton. See docket item titled 
``Biocycle, Advancing Composting, Organics Recycling and Renewable 
Energy,'' July 2008.
    \10\ See the Materials Characterization Papers in the docket 
established for this action for examples of emission comparisons.
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    The reuse of secondary materials may result in other benefits. 
First, the use of secondary materials could result in reduction of 
imported fuel. Second, using secondary materials for fuel or ingredient 
value has an additional benefit of reducing the environmental impacts 
caused by the disposal of such materials, if such disposal has 
environmental impacts. For example, use of tires as a fuel source means 
that those tires are no longer accumulated in huge piles where there 
are known incidents of them catching fire and serving as breeding 
grounds for disease carrying mosquitoes.11 12
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    \11\ Although this notice highlights the benefits of using 
secondary materials as fuels, EPA recognizes that there may be other 
uses of secondary materials that in some cases are preferable from 
an energy perspective. For example, re-refining used oil is reported 
to save more energy content of the used oil than burning for energy 
recovery.
    \12\ See docket entry titled ``Scrap Tire Cleanup Guidebook, 
January 2006,'' for more discussion on hazards associated with tire 
piles.
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    The remainder of this section first presents an overview of the 
secondary materials and their contribution to improved economic 
efficiency. Then, we briefly summarize selected materials management 
programs and successes. Finally, we discuss known use patterns for 
selected secondary materials and briefly summarize some economic and 
environmental benefits derived from the use of such materials.

B. Overview of Secondary Materials and Their Contribution to Economic 
Efficiency

    There exists a wide and diverse range of secondary materials used 
as fuels and/or ingredients, or otherwise beneficially used. Although 
sometimes referred to as wastes, these secondary materials may, in most 
cases, be more appropriately defined as ``by-products,'' \13\ 
reflecting their inherent resource recovery value in the generation/
production of heat, energy, and/or marketable products. This inherent 
value exists with or without processing, depending upon the material. 
These secondary materials commonly include, but are not limited to, the 
following: scrap tires; scrap plastics; the biomass group (pulp and 
paper residuals, forest derived biomass,\14\ agricultural residuals, 
food scraps, animal manure, gaseous fuels); the construction and 
demolition material group (building related, disaster debris, and land 
clearing debris); spent solvents; coal refuse; waste water treatment 
sludge; used oil; blast furnace slag; cement kiln dust (CKD); coal 
combustion products (e.g., fly ash, bottom, ash, boiler slag); foundry 
sand; silica fume; and secondary glass material. These secondary 
materials can provide significant and widespread environmental and 
economic benefits when legitimately used/reused as an effective 
substitute for, or supplement to, primary materials.
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    \13\ For purposes of this action, we define by-product as a 
secondary or incidental material derived from the primary use or 
production process that has value in the marketplace, or value to 
the user.
    \14\ More commonly referred to as scrap wood materials.
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    As certain primary materials become costly, the use of secondary 
materials is likely to become more economical. Managers of 
manufacturing or energy-production units that use secondary materials 
as a substitute for primary fuels or ingredients are obviously doing so 
for their own interests, including short and/or long-term competitive 
advantage. In general, industry will use secondary materials so long as 
the final price to the user is equivalent or less than the price for 
comparable primary material(s), and the product(s) derived from these 
materials is of equal (or better) quality. Provided industry is able to 
continue to safely use secondary materials, economic efficiency may be 
improved. While the issue raised in this ANPRM is whether specific 
secondary materials are properly considered legitimate products, or 
RCRA solid wastes, EPA notes that the regulatory status of the fuel or 
ingredient may, as mentioned above, potentially affect choices made by 
industrial concerns in selecting raw materials.

C. Materials Management Programs and Successes

    EPA, like environmental agencies in other countries, is exploring 
approaches to waste management that employs the concepts of life cycle 
assessment \15\ and full cost accounting.\16\ The life cycle approach 
has been advanced in the EU where, for the past several years, the EU 
has been focused on developing a strategy designed to minimize and 
recycle secondary materials,\17\ while recognizing the importance of 
full life cycle analysis within a comprehensive materials management 
program. Japan has gone even further, passing ambitious laws and 
establishing an

[[Page 46]]

effective initiative \18\ focused on creating a ``closed loop'' 
economy.
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    \15\ Note: The terms, ``life cycle analysis'' and ``life cycle 
assessment'' are commonly used interchangeably. Life cycle 
assessment is a system-wide analytical technique for assessing the 
environmental (and sometimes economic) effects of a product, 
process, or activity across all life stages.
    \16\ Full cost accounting is an accounting system that 
incorporates economic, environmental, health, and social costs of a 
product, action, or decision.
    \17\ For example, The Closed Substance Cycle and Waste 
Management Act of 1994 (Germany), the German Auto Recycling Law, 
Directive 2006/66/EC of the European Parliament (EU battery 
recycling law).
    \18\ The Japanese law Promoting the Utilization of Recyclable 
Resources, 1991, the Japanese Recycling Law, 2001 (the world's first 
``take back'' law), and The Ecofactory initiative (Ministry of 
International Trade and Industry).
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    EPA's materials management approach is focused on the three R's: 
Reduce, reuse, and recycle.\19\ This approach helps ensure more 
efficient resource and material use through the integration of both 
environmental and economic components in the management of materials. 
In 2002, EPA initiated the Resource Conservation Challenge (RCC). This 
program was designed to help implement the Agency's approach to 
materials management. The RCC Program is currently focused on four 
specific material groups: Municipal solid waste; green initiatives, 
such as electronics; industrial materials; and priority and toxic 
chemicals. The Agency also has materials management programs focused 
specifically on used oil and scrap tires.\20\ Other more broadly 
focused EPA programs include the Office of Solid Waste's (OSW's) 
Product Stewardship Program and the Comprehensive Procurement 
Guidelines. In addition, several states have also established life 
cycle approaches to materials management (e.g., California, Minnesota, 
Washington, and Vermont).
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    \19\ See: https://www.epa.gov/epawaste/rcc/basic.htm.
    \20\ See: https://www.epa.gov/waste/conserve/materials/usedoil/
index.htm, and, https://www.epa.gov/waste/conserve/materials/tires/
index.htm.
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    The Agency has an interest in understanding the environmental and 
economic tradeoffs associated with life cycle implications of our 
materials management programs. For example, we have conducted 
preliminary life-cycle analyses of beneficial impacts associated with 
recycling of foundry sand and selected coal combustion products.\21\ It 
is also one of our mandates under RCRA Subtitle F--Federal 
Responsibilities, which states the ``Administrator shall provide 
information on the technical and economic aspects of developing 
integrated resource conservation or recovery systems * * *'' (Sec. 
6003). For the examples cited above, the Agency used a rigorous 
analytical approach to evaluate the environmental and economic benefits 
associated with the management of those materials. This rigorous 
analytical approach to the development of materials management programs 
helps to ensure that we are not promoting economically or 
environmentally inefficient programs. Where we have evaluated the 
benefits of secondary materials management programs, such as the RCC's 
Program as described above for uses of foundry sand and selected coal 
combustion products, our analyses have shown those programs provide 
benefits.
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    \21\ See docket items titled ``Waste and Materials-Flow 
Benchmark Sector Report: Beneficial Use of Secondary Materials--Coal 
Combustion Products, Final Report,'' USEPA, February 12, 2008 and 
``Waste and Materials-Flow Benchmark Sector Report: Beneficial Use 
of Secondary Materials--Foundry Sand, Final Report,'' USEPA, 
February 12, 2008.
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    We believe that it is critical to interpret which secondary 
materials are not ``solid wastes'' pursuant to RCRA to ensure the 
continued legitimate use of secondary materials in combustion 
processes. This, in turn, will maintain the continued environmental and 
economic benefits from these programs.

D. Secondary Materials Use and Benefits

    This part builds on the discussion in part ``B'' of this section 
and provides greater detail on some of the non-hazardous secondary 
materials that are commonly used by the industrial community. We 
summarize key information that is available on the known generation, 
use, and benefits of these secondary materials. The purpose of this 
part is to describe the Agency's understanding regarding the wide-scale 
acceptance, use, and value of these secondary materials in U.S. 
industrial markets. More detailed information on a wide array of 
secondary materials potentially affected by this action is presented in 
the Materials Characterization Papers, which can be found in the Docket 
established for today's action.
    The Materials Characterization Papers outline publicly and readily 
available information concerning material characteristics relevant to 
this ANPRM. Specifically, for each material group, the papers endeavor 
to: (a) Provide a clear definition of the material; (b) identify annual 
quantities generated and used; (c) outline current combustion and non-
combustion uses, along with current quantities landfilled or otherwise 
stored; (d) discuss management and combustion processes utilized; and 
(e) summarize potential environmental and economic impacts from the use 
of each material. The available information across these components of 
each paper and the individual materials is often limited or uncertain. 
Thus, these papers represent our initial effort to gather and present 
relevant data. The Agency seeks comment on additional data sources that 
may enhance its understanding and knowledge of these materials.
    Non-hazardous secondary materials are widely used as fuels and/or 
ingredients in virtually all types of boilers (e.g., industrial, 
commercial, institutional), cement kilns, lightweight aggregate kilns 
(LWAKs), and other industrial furnaces (e.g., glass furnaces). These 
facilities burn or otherwise use in the production process hundreds of 
millions of tons of secondary materials each year. The total number of 
facilities using secondary materials each year as a substitute for 
primary fuels and/or ingredients is unknown, but our best estimate 
indicates that approximately 200,000 units use secondary materials as a 
substitute for primary fuels and/or ingredients.\22\
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    \22\ Identification of Non-Hazardous Materials That Are Solid 
Waste. EPA Exhibit 1: Preliminary Estimate of Total Nonhazardous 
Secondary Materials Used Annually in Boilers and Kilns. Sept. 24, 
2008.
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    The manner in which non-hazardous secondary materials are 
processed, the nature of the materials, and the ways in which they are 
used or recycled generally establishes whether such materials are 
wastes or ``by-products.'' Based on our research for the Materials 
Characterization Papers, we have identified eight non-hazardous 
secondary material fuels or fuel groups and six non-hazardous 
ingredients, or ingredient groups. The eight fuel source materials are: 
The biomass group (pulp and paper residuals, forest derived biomass, 
agricultural residues, food scraps, animal manure, gaseous fuels); 
construction and demolition materials (building related, disaster 
debris, and land clearing debris); scrap tires; scrap plastics; spent 
solvents; coal refuse; waste water treatment sludge, and used oil. The 
six secondary material ingredients are: Blast furnace slag; CKD; coal 
combustion product group (fly ash, bottom ash, and boiler slag); 
foundry sand; silica fume; and secondary glass material.
    Based on publicly available information, we believe that these 
materials account for the vast majority of all non-hazardous secondary 
materials used as fuels and/or ingredients in the U.S. However, the 
Agency solicits comment on whether there are other non-hazardous 
secondary materials that are also used as a fuel or ingredient that we 
have not identified, either in this notice or in the Materials 
Characterization Papers. If so, the Agency requests that commenters 
provide information on such materials, including the composition or 
characteristics of such materials, how much of the secondary material 
is produced and utilized, how it is utilized--that is, is it a fuel or 
an

[[Page 47]]

ingredient, and how is it generally handled. Detailed information will 
be the most useful as we move forward in the rulemaking effort.
    The annual use patterns, quantities, and benefits associated with 
some of these secondary materials are well established, while less is 
known about other secondary materials. Presented below are brief 
summaries of the documented usage, trends in usage, and benefits 
associated with some of these widely used secondary materials. As 
mentioned above, the Materials Characterization Papers, available in 
the docket established for today's action, present more detailed 
information on the quantities and use patterns, characteristics, 
composition, management and benefits associated with all eight 
secondary fuel materials/groups and the six secondary ingredient 
materials/groups we have identified.
    Biomass \23\--When used as a secondary material fuel, biomass 
consists primarily of pulp and paper mill residuals, forest derived 
biomass, agricultural residuals, food scraps, animal manure, and 
gaseous fuels. Sectors that generate and/or use these valuable biomass 
commodities include: Crop production; support activities for crop 
production; food manufacturing; beverage and tobacco product 
manufacturing; logging; pulp, paper, and paperboard mills; sawmills and 
wood preservation; veneer, plywood, and engineered wood product 
manufacturing; cattle ranching and farming; hog and pig farming; 
poultry and egg production; sheep and goat farming; horses and other 
equine production; and, sewage treatment facilities.
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    \23\ Source: Materials Characterization Paper in Support of the 
Advanced Notice of Proposed Rulemaking: Identification of Non-
Hazardous Materials That Are Solid Waste--Biomass.
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    Timber harvesting and the manufacture of lumber generate large 
amounts of forest-derived biomass used as secondary material fuels. 
These woody materials may originate directly from the forest as logging 
residues (e.g., tree limbs, tops, needles, leaves), or from timber 
processing mills (e.g., clean and unadulterated bark, sawdust, trim, 
screenings, tree harvesting residuals). Logging and other forest 
harvesting removal residues are estimated to range from 62 million tons 
per year (tpy) to 103 million tpy, with an estimated 42 to 93 million 
tpy available for recovery and beneficial use. Total primary mill \24\ 
residue production is estimated to range from 87 to 91 million tpy. 
Experts predict that by 2050, logging and other forest harvesting 
removal residues will increase by 23 million tpy and availability of 
secondary mill residues (i.e., residues such as board, trim and 
breakage from the manufacture of reconstituted wood/panel products) 
will increase by 16 million tpy.
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    \24\ Lumber and veneer mills.
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    Available information indicates that logging residues, although a 
good potential source for secondary material fuel, are not currently 
collected for use as a fuel on any large scale. Primary mill residues, 
however, are highly valuable as feedstocks in combustion, as well as 
for non-combustion purposes.\25\ Approximately 42 percent of all 
primary mill residues are used as a fuel, including 76 percent of bark 
residues, 12 percent of coarse residues, and 56 percent of fine 
residues. These materials are burned in a variety of boilers, including 
Dutch ovens, fuel cell ovens, spreader stokers, suspension-fired 
boilers, and fluidized bed combustion boilers. Forest-derived materials 
may also be co-fired with other fuels, primarily solid fuels such as 
coal. Logging and primary milling residues may be chipped or sorted 
before being used, but otherwise generally undergo minimal processing. 
The use of forest-derived materials has been found to result in 
generally higher PM emissions than natural gas or distillate oil, but 
lower PM emissions than coal or residual oil systems. Estimated 
NOX emissions associated with the use of wood are similar to 
those associated with distillate and lower than the NOX 
emissions for other conventional fuels, while wood combustion results 
in lower SO2 emissions than most conventional fuels. 
Finally, the use of forest-derived materials results in reduced fuel 
costs to the user and may provide environmental benefits associated 
with avoided virgin material \26\ extraction and, in some cases, 
avoided transportation.
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    \25\ Primary mill residues tend to be clean, uniform, 
concentrated, and with a low-moisture content. As a result, these 
materials generally require little processing.
    \26\ The term ``Virgin material,'' as used in this Notice means 
resources extracted from nature in their raw form, such as timber, 
metal ore, coal, petroleum, etc.
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    The forest products industry generates large quantities of 
secondary material biomass fuels in the form of pulp and paper 
residues, including sludges and black liquor.\27\ However, black 
liquors that are reclaimed in a pulping liquor recovery furnace and 
then reused in the pulping process are excluded from the definition of 
solid waste under Subtitle C of RCRA, unless speculatively accumulated, 
as defined in 261.1(c), or reclaimed in another manner. Pulp and paper 
mills produce the dry biomass equivalent of between 4.2 and 5.8 million 
tons of wastewater treatment sludges. In 2002, approximately 22 percent 
of all pulp and paper mill sludges were used in hog fuel boilers as a 
supplementary or stand-alone fuel. An undetermined amount was used as a 
cement kiln feedstock and as a fuel pellet ingredient. Anaerobic sludge 
production also generates methane. Sludges typically undergo mechanical 
dewatering before being combusted. The use of mill sludges in onsite 
boilers results in reduced fuel costs for the facility, and may provide 
environmental benefits associated with avoided virgin material 
extraction and transportation.
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    \27\ See 40 CFR 261.4(a)(6).
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    Agricultural residuals include crop residues remaining in the 
fields after harvest (primary residues) and processing residues 
generated from the harvested portions of crops during food, feed, and 
fiber production (secondary residues). Current annual production of 
agricultural residues from major crops is estimated to be around 500 
million dry tpy. These primary biomass crops include barley, canola, 
corn, cotton, dry beans, flax, oats, peanuts, peas, potatoes, rice, 
rye, safflower, sorghum, soybeans, sugarcane, sunflowers, and wheat. 
Anywhere from 113 million tpy to 173 million tpy is estimated to be 
available for removal from the fields in a sustainable manner (i.e., 
while maintaining cropland fertility and quality). However, the total 
quantity of agricultural residues actually used for fuel on an annual 
basis is difficult to determine from the available literature. Total 
primary agricultural residue production fluctuates with the amount of 
U.S. land in crop production and the relative proportion of crops on 
this land. In 2007, we estimate that approximately 6.0 million tons of 
agricultural residues were burned, 92 percent of which [on a British 
thermal unit (Btu) basis] provided useful thermal output. The remaining 
8 percent was used to produce electricity. Around 71 percent of total 
agricultural residues burned (Btu basis) were secondary residues used 
in the food processing industry, mostly sugarcane bagasse at sugar 
mills. The remaining 29 percent was used in the Agriculture, Forestry, 
and Mining, and the Paper and Allied Products industries. Corn stover 
and other agricultural residues can be used as a heat and power source 
for the production of corn and cellulosic ethanol. Agricultural 
residues are generally burned as fuel in fuel cells, horseshoe boilers, 
and spreader stoker boilers. Aside from occasionally drying,

[[Page 48]]

agricultural residues do not generally require processing prior to 
being utilized as a fuel. The use of agricultural residues as a 
substitute for coal in an existing power plant reduces SO2, 
NOX, and other emissions and eliminates the environmental 
impacts associated with the extraction and processing of the 
traditional fuels.
    Food scraps are generated at all stages of the food production 
system, including farming, storage, processing, wholesaling, retail, 
and consumption. Food scraps, broadly defined, include both the portion 
of harvested crops and livestock that does not enter the retail market 
and the portion of food discarded by retailers and consumers. This 
ANPRM is concerned only with industrial food scraps; food scraps 
generated by retailers and consumers are not considered because they 
enter the waste stream as municipal solid waste. The total quantity of 
industrial food scraps produced on an annual basis is not readily 
accessible from publically available information. Industrial food 
scraps are known to be burned in lodging and restaurant boilers. 
However, the annual quantities burned and the distribution of this use 
is unknown. The use of food scraps with meaningful fuel value in 
lodging and restaurant boilers eliminates the environmental impacts 
associated with the extraction and processing of the traditional fuels.
    Animal manure is the excrement of livestock reared in agricultural 
operations. Animal manure may also include straw, sawdust, and other 
residues used as animal bedding. Gaseous fuels may be derived from 
landfills (landfill gas) or from animal manure and solid biomass 
(biogas), such as crop silage. Biogas is generated via anaerobic 
digestion, a multi-stage process whereby bacteria convert 
carbohydrates, fats, and proteins to methane. Domestic livestock 
production generates over a billion tons of manure annually, which if 
used to produce biogas would yield approximately 19.4 million tons of 
methane. Anaerobic digestion of current manure production managed in 
ponds, anaerobic lagoons, and holding tanks could yield a maximum of 
about 2.4 million tpy of methane. Current production, however, is about 
0.07 million tons from 111 operating digesters.
    We estimate that about 35 million dry tons of current manure 
production could be used for bioenergy purposes. Livestock production 
has become increasingly concentrated in recent years, facilitating the 
collection of manure for bioenergy purposes. As bioenergy conversion 
technologies improve, the opportunity for utilizing animal manure for 
bioenergy production may likely increase. Biogas produced on dairy 
farms is typically used to heat water for purposes of cleaning and 
sanitizing milking pipelines and equipment in dairy operations. Biogas 
generated on farms is typically burned on-site directly in boilers and, 
to a lesser extent, is burned in space heating. Biogas benefits include 
displacement of fossil fuels, primarily natural gas. Furthermore, the 
use of biogas as a replacement for natural gas avoids the emissions 
associated with the extraction and processing of natural gas.
    Scrap tires \28\--Scrap tires are used tires that are recycled when 
they can no longer be used as tires. This may occur because of normal 
tread wear, punctures, destruction in accidents, or any number of other 
reasons. Scrap tires are generated from the replacement of tires on 
passenger and commercial vehicles. Consumers and industry in the U.S. 
generated 299.6 million tires in 2005; this represents approximately 
4.9 million tons of tires, assuming an average of 33 pounds per tire. 
Approximately 52 percent of the total number of scrap tires generated 
in 2005 went for tire-derived fuel (TDF).\29\ Although energy recovery 
is the most common use of scrap tires, there are many non-fuel uses for 
scrap tires, including: Civil engineering (i.e., construction of 
landfills and roads); cut/punched/stamped into other products (i.e., 
floor mats); and, rubber modified asphalt. While some facilities are 
capable of burning whole tires, a large percentage of tires are sent to 
processors where they are shredded or chipped prior to being sent to 
plants for use as TDF. Facilities that burn whole tires often charge a 
tipping fee for acceptance of these tires, while chipped tires must be 
purchased. TDF is used in a variety of units, including boilers and 
industrial furnaces, such as kilns. It can be used to supplement and/or 
replace a wide range of fuels including coal, coke, fuel oil, natural 
gas, and wood. The use of tires for fuel has increased from 24.5 
million tires in 1990 to 155.1 million tires in 2005. During this same 
period, the number of tires in stockpiles declined by nearly 82 
percent, going from approximately one billion tires to just under 200 
million, a significant environmental accomplishment. The majority of 
tires that have been removed from these piles have been used in 
industrial boilers and kilns for energy recovery. This trend may 
increase if the cost of conventional fossil fuels increases.
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    \28\ Source: Materials Characterization Paper in Support of the 
Advanced Notice of Proposed Rulemaking: Identification of Non-
Hazardous Materials That Are Solid Waste--Scrap Tires.
    \29\ TDF has a heating value of around 13,000 to 16,000 Btu/lb.
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    Emissions test data compiled by EPA in 1997 suggest that 
substituting scrap tires for coal in electric utility boilers may lead 
to reductions in NOX and particulate matter emissions,\30\ 
but show no clear pattern for SOX and zinc emissions.\31\ 
Studies indicate that there is an increase in zinc emissions when TDF 
is used at industrial boilers and pulp and paper mills, while zinc 
emission data are inconclusive for cement kilns and utility boilers. 
Finally, as referenced above, the use of TDF as a replacement for 
traditional primary fuels eliminates the environmental impacts 
associated with the extraction and processing of the traditional fuels.
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    \30\ United States Environmental Protection Agency (EPA). 1997, 
``Air Emissions from Scrap Tire Combustion''.
    \31\ See also the Nebraska Department of Environmental Quality, 
Applicability Determination for Combusting Tire Derived Fuel in 
Humboldt Wedag Kiln (Kiln 2), indicates that emissions of 
SO2, NOX, and CO decreased while TDF was used. 
(see: https://www.deq.state.ne.us/Press.nsf/pages/AGFactsheet1)
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    Used Oil \32\--Used oil is defined as petroleum-based or synthetic 
oil that has been used and has been contaminated from use (see 40 CFR 
279.1 for the specific definition). To meet EPA's regulatory 
definition, contamination includes residues and contaminants generated 
from the handling, storing, use, and processing of oil.\33\ Physical 
contaminants from use include metal shavings, high water content, or 
dirt, while chemical contaminants from use include solvents, halogens, 
or lead. To meet EPA's regulatory definition, used oil must have been 
refined from crude oil or made from synthetic materials; animal and 
vegetable oils are excluded from EPA's regulatory definition of used 
oil. Generators of used oil include businesses that handle oil through 
commercial or industrial operations or from the maintenance of vehicles 
and equipment. The oil may have been used as a lubricant, hydraulic 
fluid, heat transfer fluid, buoyant, and for other similar purposes.
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    \32\ Source: Materials Characterization Paper in Support of the 
Advanced Notice of Proposed Rulemaking