Waste 2022

• Materials
• Metal
• Plastic
• Paper
• Cans
• Food
• Glass
• Cartons
• Wastewater Treatment Sludge (Non-Hazardous)
• Other (please specify)
• All domestic waste combined

Suggested Upload: Waste Manifest

Do you track your non-hazardous waste streams?

Includes non-hazardous production waste and domestic waste.

You will receive Full Points if you are completely tracking all waste streams that your facility generates, the quantity of each waste stream and the disposal method of each waste stream.

You will receive Partial Points if you are completely tracking at least one of your waste streams, but are not yet tracking all of your sources or the disposal method of each waste stream.

What is the intent of the question?

The intent is to build awareness of all non-hazardous waste types (both production and domestic waste) at your facility and to start tracking the volume each waste type generates. You must know your sources of waste before you can make strategic decisions on how to reduce and divert waste. It’s important to understand your current waste management practices and to prioritize improvements for the waste sources that you produce the most. By doing this you can find more effective alternatives to reduce and divert waste.

Technical Guidance:

Developing a waste inventory is considered the first step in waste management. When establishing your waste tracking and reporting program, start by doing the following, which applies to non-hazardous wastes covered in this question and hazardous waste tracking covered in Question 2:

• Map out business and operational processes to identify where waste is being generated and all the types of wastes that are generated.
• Establish procedures to collect and track waste data:
  • Use on-site scales, waste invoices/manifests, receipts for waste materials that are sold, etc. to determine the amount of waste generated.
  • If estimation techniques are used, the calculation methodology should be clearly defined and be supported by verifiable data (see examples below)
• Record tracking data (e.g. daily, weekly, monthly waste quantities) in a format that is easy to review [e.g. spreadsheet (e.g. Microsoft Excel) or similar data analytics program that allows export of data in a human readable format (e.g. Excel, csv)] and maintain relevant supporting evidence for review during verification.

Reporting Waste data in the Higg FEM:

Before reporting waste data in the FEM, data quality checks should be performed to ensure that the data AND the processes used to collect and record the data are effective at producing accurate data.

Do:

• Review source data (e.g. weighing records, invoices/manifests, etc) against aggregated totals to ensure it is accurate.
• Compare the current year with historical data. Any significant changes (e.g. an increase or decrease of over 10%) should be attributable to known changes. If not, further investigation may be warranted.
• Ensure the most recent and updated versions of data tracking spreadsheets are being used and that all automated calculations/formulas are correct.
• Ensure the proper units are reported and verify any unit conversions from source data to reported data.
• Review any assumption or estimation methodology/calculations to ensure accuracy
• Verify the how the specific waste is disposed and report the disposal method (e.g. landfill, recycle, incineration)
• Ensure waste vendors have the appropriate licensed to handle each specific waste type.
• Add notes in the “Describe your waste management and disposal processes for this source” field to describe how the waste is managed and any data assumptions, estimation methodology, or other relevant comments on the data for a particular source.

Do Not:

• Report data that is not accurate (e.g. the data source is unknown or has not been verified).
• Report estimated data if it is not supported by verifiable and reasonable accurate estimation methodology and data (e.g. engineering calculations).

The following terminology will help you understand how to complete this question:

• All waste streams mean all the waste produced on-site including waste generated from manufacturing product, office use, waste produced by workers at the canteen, dormitory, shops, and waste produced by contractors coming on-site to perform a service.
• Final disposal means the final step to manage or remove your waste. If a contractor is collecting your waste and selling it to another company, the final disposal will be the last company to handle your waste by recycling, incinerating, treating (physical or chemical treatment), or landfilling your waste. This can be controlled in the factory by checking the waste collection area or waste contractor’s site and confirming that sorting is well-managed
• Non-hazardous waste: please refer to the definition listed in the waste introduction section at the top of this section.
• Hazardous waste: please refer to the definition mentioned in the waste introduction section at the top of this section. To identify the hazardous waste, you can check its characteristic, environmental impact, usage, corrosivity, ignitability and reactivity, if it doesn’t belong to hazardous waste, it will be non-hazardous waste.
• Reuse: Materials that are used in a function or application as a substitute for a new commercial material. Typically, this material is designed to be reused multiple times for the same purpose. This could also include checking, cleaning or repairing materials/components, so that they can be re-used without any other preprocessing whether for the original or other purposes. For example:
  • Chemical supplier can reuse the chemical container for filling them up with the same chemical (external reuse).
  • Fabric leftover can be reused in another factory (external reuse).
  • Rechargeable batteries can be reused many times (internal reuse). Wood pallet or cardboard can be reused for holding materials within the factory (internal reuse).
• Recycle: Materials that are reprocessed from recovered material and made into a final product or into a component of a product. It does not include energy recovery and the reprocessing into materials that are to be used as fuels or for backfilling operation.

Differences between recycled material and reused material:

• Recycled material undergoes processing, or change in physical form, to be made into another component or product.
• Reused material is used in its current form, multiple times, typically for the same purpose. For example:
  • Plastic recycling is the process of recovering scrap or waste plastic and reprocessing the material into useful products, sometimes completely different in form from their original state. For instance, this could mean melting down soft drink bottles and then casting them as plastic chairs and tables.
  • Plastic used for playground surfaces or traffic cones
  • Fabric scraps being reprocessed for padding/stuffing used for furniture, mattresses, blankets, toys
• Incinerated with energy recovery: The process of generating energy in the form of electricity or heat from the incineration of waste. Thermal technologies include incineration, gas plasma, pyrolysis or any other process in excess of 150 °C (please refer to UL2799 standard: https://standardscatalog.ul.com/standards/en/standard_2799_3). This operation is only accepted by an approved and permitted incineration plant by the local government or by a permitted incineration plant.
• Biological treatment: usually used for food waste disposal. The common treatments are Anaerobic digestion, biofuel and composting. Anaerobic digestion is a biological process where bacteria decompose organic matter in the absence of oxygen. The bacteria produce biogas that can be used to generate energy. The effluent remaining after controlled anaerobic decomposition is low in odor and rich in nutrients. Biofuel is derived from biological materials and can be used as an alternative fuel or as an additive to reduce vehicle emissions. Composting is the biological process of breaking organic waste into a useful substance by various microorganisms in the presence of oxygen. Composting also includes converting organic waste into industrial and manufactured products such as fertilizer, tallow and industrial chemicals.
• Incineration: materials that are collected and managed through an incineration process that meets local and international standards.
• Landfill: materials that are collected and managed through a landfilling process that meets local and international standards.
• Upcycle: Upcycling is the process of transforming by-products, waste materials, useless and/or unwanted products into new materials or products of better quality or for better environmental value. Recycling used garments and fabrics to manufacture new clothing, making fabric from used plastic bottles, and processing coal ash from the boiler room to make bricks are some examples of upcycling. A facility can engage its material suppliers, buyers and waste management contractors to find creative solutions to upcycle wastes
• Mandated waste material should not be included in the non-hazardous waste stream, as these types of waste are not generated from a “business as usual” situation, such as:
  • Medical waste
  • Polychlorinated biphenyls (PCBs)
  • Lead Paint
  • Asbestos
  • Other waste mandated by local regulation
  • Major construction and demolition projects waste (C & D waste)
  • Waste from nature disaster such as flood, fire, tornado, hurricane.

Accepted estimation for non-hazardous waste quantity calculation: In some cases, calculating waste quantity requires estimation. Estimation requires a documented methodology that includes:

• Calculations and methodology
• Date used you calculate the estimate
• Frequency of updates to calculations and methodology

Example: Your facility generates waste in barrels which are sealed when full and sent weekly for disposal. Weighing every barrel may not be possible. Therefore, the average weight of a full barrel can be determined by weighing a representative sample of barrels and then multiplying this average weight by the number of barrels disposed each week or month as shown below:

• Average weight of a barrel = 25kg (based on representative weights of barrels from different days, months, production scenarios, etc.)
• Number of barrels disposed of in 1 month = 65
• Total waste for this source in 1 month = 1,625kg (25kg x 65 barrels)

Note: The above method can be used for any waste type (e.g. production or domestic waste). The estimation methodology and calculations should be documented and applied consistency for each waste type. 

Method For food waste or sanitary waste:

Weigh a random bucket or bag 3 times a month and calculate the average weight per bucket or bag. Then accumulate the total weight based on the number of buckets or bags at the end of each month. Please note that the waste volume for each bucket or bag should be representative of the typical amount of waste generated.

Note: If an estimation technique is used, this should be fully documented, applied consistently and based on reasonable estimation factors that are derived from relevant data (e.g. actual weights of a representative sample of the waste).

How This Will Be Verified:

When verifying a facility’s waste data, Verifiers must review all aspects of the facility’s waste tracking program that could produce inaccuracies including:

• The initial data collection processes and data sources (e.g., weighing records, manifest/invoices/receipts, etc.); and
• The process and tools used to aggregate the data (e.g. spreadsheet calculations, unit conversions, etc.)

If any inconsistencies or errors are noted, the reported information must be corrected where possible and detailed comments should be included in the Verification Data field.

Full Points

• Documentation Required:
  • List of ALL non-hazardous waste produced by the facility
    • Production Waste
    • Packaging waste
    • Domestic Waste
  • Records for tracking both the quantity and type of disposal (including disposal destination) of ALL non-hazardous waste (e.g. invoices from waste contractors, weighing records compiled in a spreadsheet (e.g. Excel) is ok as long as supporting evidence is available for review as well). Records must match the reported answers to all questions answered.
  • Method of tracking the quantity and measurement method for ALL non-hazardous waste
  • Scale calibration records where applicable (e.g. as per manufacturer’s specifications)
  • Estimation methodology documented where applicable
  • All non-hazardous waste sources at the facility are tracked in full. This means that all sources listed in the Level 1 table have complete answers in all columns that are accurate
• Interview Questions to Ask:
  • Management can describe the major sources of non-hazardous waste and describe their fate (where they are disposed of)
  • Key Employees are aware of:
    • The procedures in place for tracking non-hazardous waste, including tracking the waste collection process, quantity measurement and type of disposal
    • The waste data tracking program and how data quality is maintained
  • Inspection – Things to Physically Look For:
    • Sources of non-hazardous waste production
    • Equipment for waste quantity measurement
    • Collection sites for waste disposal
    • Waste handling contractors site for waste disposal

Partial Points

• Same requirements as for “yes” above for at least one non-hazardous waste source at the facility. This must be tracked in full. This means that at least one (but not all) of the sources listed in the Level 1 table have complete answers in all columns and there is evidence to support all of the answers.