GHGRP and the Waste Industry

Household Waste

Household waste is trash or garbage that originates from everyday use patterns in individual households, hotels, motels, and other similar permanent or temporary housing establishments and facilities. Household waste goes to municipal solid waste (MSW) landfills. Reporting of GHG emissions and related data from applicable household waste in MSW landfills is required under subpart HH (Municipal Solid Waste Landfills) and/or subpart C (General Stationary Fuel Combustion) of the GHGRP.

Commercial Solid Waste

Commercial and institutional solid waste is generated by places of business, trade, recreation, education, sport, or entertainment. Reporting of GHG emissions and related data from applicable commercial and institutional solid waste in MSW landfills is required under subpart HH (Municipal Solid Waste Landfills), subpart TT (Industrial Waste Landfills), and/or subpart C (General Stationary Fuel Combustion) of the GHGRP.

Industrial Solid Waste

Industrial solid waste is generated by manufacturing or industrial processes such as Resource Conservation and Recovery Act (RCRA) Subtitle D wastes. This does not include hazardous waste regulated under RCRA Subtitle C. Waste types may include, but are not limited to, waste from manufacturing properties such as iron and steel manufacturing, nonferrous metals manufacturing, pulp and paper industry, etc.

Industrial Wastewater

Water containing waste from an industrial process. Industrial wastewater includes water which comes into direct contact with or results from the storage, production, or use of any raw material, intermediate product, finished product, by-product, or waste product. Examples of industrial wastewater include, but are not limited to, paper mill white water, wastewater from equipment cleaning, wastewater from air pollution control devices, rinse water, contaminated stormwater, and contaminated cooling water.

Municipal Solid Waste (MSW) Landfills (Subpart HH)

MSW landfills are defined under subpart HH of GHGRP as landfills that accepted waste on or after January 1, 1980 and generate methane (CH₄) in amounts equivalent to 25,000 metric tons of carbon dioxide equivalent or more per year. Reporting of GHG emissions and related data from MSW landfills is required under subpart HH of GHGRP.

This category includes emissions from the landfill, landfill gas collection systems, and destruction devices for landfill gases (including boiler, engines, and flares).

Read more about subpart HH.

Industrial Waste Landfills (Subpart TT)

Industrial waste landfills accepted waste on or after January 1, 1980 and are located at a facility whose total landfill design capacity (the maximum amount of solid waste a landfill can accept) is greater than or equal to 300,000 tons. Reporting of GHG emissions and related data from industrial waste landfills is required under subpart TT of GHGRP. This category includes emissions from the landfill, landfill gas collection systems, and destruction devices for landfill gases (including flares).

Read more about subpart TT.

Industrial Wastewater Treatment (Subpart II)

Industrial wastewater treatment systems use anaerobic processes to treat industrial wastewater and wastewater treatment sludge that originates from pulp and paper manufacturing, food processing, ethanol production, and petroleum refining. Reporting of GHG emissions and related data from industrial wastewater treatment systems are required under subpart II of GHGRP.

The anaerobic treatment processes included under subpart II are anaerobic reactors, anaerobic lagoons, anaerobic sludge digesters, and biogas destruction devices.

Read more about subpart II.

Solid Waste Combustion (Subpart C)

Solid waste combustion consists of combustors and incinerators for the disposal of nonhazardous solid waste. Solid waste combustion is done in order to reduce the volume of the waste. Reporting of GHG emissions and related data from solid waste combustion is required under subpart C of GHGRP

Read more about subpart C.

Emissions Stack

Emissions from stationary combustion units associated with waste not sent to landfills or wastewater treatment systems.

Onsite Gas Collection Systems

Gas collection systems (GCS) is a system of pipes used to collect landfill gas (LFG) from different locations in the landfill. GCS can consist of vertical wells, horizontal wells, leachate management components, under cap collectors and other applicable devices. They are designed based on expected LFG generation and collection and control objectives. GCS designs can vary greatly on a regional basis or even a site basis due to types of waste streams accepted, climate, operational goals and waste filling practices. Collection system operators “tune” or adjust the wellfield to improve collection.

Onsite or Offsite Destruction Device

A destruction device includes boilers, engines, flares, or any other combustion unit used to destroy or oxidize methane contained in landfill gas (LFG). Destruction of methane in LFG can occur both onsite or offsite of the waste facility and leads to reductions in emissions from sites.

Passive Flares or Passive Vents

A passive flare is a device for igniting and burning LFG. A passive vent flare operates periodically based on gas flow and quality. Flares are used to control LFG emissions, as well as gas that exceeds the capacity of the system and prevent methane from being released into the atmosphere. Flare designs include open (or candlestick) flares and enclosed flares.
A passive vent is a pipe or a system of pipes that allow landfill gas to flow naturally to the surface of a landfill where an opening or pipe (vent) allows for the free flow of LFG to the atmosphere or to a passive vent flare without diffusion through the top layer of surface soil.

Biogas Recovery

Biogas is recovered from a variety of sources including municipal solid waste landfills, digesters at water resource recovery facilities (wastewater treatment plants), livestock farms, food production facilities and organic waste management operations. After cleanup and treatment, biogas can be used in a variety of energy applications, including:

• in thermal applications,
• to generate electricity,
• for vehicle fuel or
• as a bio-product feedstock.

GHGRP facilities reporting under subpart II must report the annual mass of methane emitted and destroyed by each biogas collection and biogas destruction device.

No Biogas Recovery

Industrial wastewater treatment systems with no biogas recovery systems are likely to report emissions from leakages throughout the system.

Onsite Gas Collection Systems

Gas collection systems (GCS) is a system of pipes used to collect landfill gas (LFG) from different locations in the landfill. GCS can consist of vertical wells, horizontal wells, leachate management components, under cap collectors and other applicable devices. They are designed based on expected LFG generation and collection and control objectives. GCS designs can vary greatly on a regional basis or even a site basis due to types of waste streams accepted, climate, operational goals and waste filling practices. Collection system operators “tune” or adjust the wellfield to improve collection.