Waste Management System: A Guide

Types of Waste

Waste can be categorized into various types based on origin, composition, and biodegradability. Below are the main types of waste:

• Organic Waste – this refers to waste that decomposes naturally and can be composted into nutrient-rich soil such as food scraps, yard trimmings, paper, cardboard, and some plastics.
• Hazardous Waste – this refers to waste that has dangerous properties and can be harmful in small amounts such as chemicals, batteries, medical waste, and other materials needing special handling.
• Solid Waste – this encompasses everyday discarded items such as packaging, food scraps, clothing, and household goods.
• Liquid Waste – these are waste from households, industries, and medical facilities such as wastewater, oil, and chemicals that can contaminate drinking water sources and water bodies.
• Recyclable Waste – waste that consists of materials like plastics, paper, glass, and metals which can be reprocessed to conserve natural resources and minimize environmental impacts.

Policies and Regulatory Frameworks

Various laws, policies and regulations are designed to govern the proper waste management. It is important to note that laws and regulations vary depending on which area you are situated in. Non-compliance with waste management regulations can lead to fines and/or penalties that vary depending on the jurisdiction and severity of the violation.

Below are some example of national and local regulations and legislations:

• United States: Resource Conservation and Recovery Act (RCRA)
• United States (California): Electronic Waste Recycling Act 2003
• United Kingdom: Environmental Protection Act 1990
• United Kingdom (England and Wales): Waste Regulations 2011
• Philippines: Republic Act 9003

Key Components

A well-structured waste management system incorporates the following key components:

1. Waste Generation – The initial stage where materials are identified as waste materials until collected.
2. Waste Storage – The temporary holding of waste materials whereas waste is stored in proper storage systems until collected to prevent contamination and ensure safety.
3. Waste Collection – The process of gathering waste in a timely manner to minimize litter.
4. Waste Transportation – after collection, waste is transported to either a treatment or disposal facility.
5. Waste Treatment – This process reduce the volume and toxicity of waste. Treatment methods include recycling, composting, incineration, and other technologies to process waste safely.
6. Waste Disposal – The final step in the waste management process, where waste is disposed of in a manner that minimizes environmental impact.
7. Recycling and Resource Recovery – The system for recycling materials and recovering resources from waste to reduce landfill and conserve natural resources.
8. Public Awareness and Education – This involves educating the public about proper waste management practices to foster and promote community involvement and responsible waste disposal behaviors.
9. Policy Integration and Collaboration – This involves coordination among various stakeholders, government agencies, businesses, and community to develop strategies in waste management.
10. Monitoring and Evaluation – The assessment of waste management practices to ensure compliance with regulations and policies and to identify areas for improvement. Utilizing a waste audit checklist before, during, and after a waste audit can prove helpful in enforcing proper waste protocols in organizations.

The Hierarchy of Waste Management

The hierarchy of waste management is a framework that ranks waste management options from most to least advised based on environmental impact to promote a more sustainable approach to waste handling. Implementing this framework in your waste management system can lead to significant environmental and economic benefits for both community and business. We’ve summarized the key points of the hierarchy below:

1. Prevention: The process of reducing waste generation by using fewer materials, reusing products, and avoiding necessary consumption.
2. Reuse: The process of finding new uses for products or materials without reprocessing them. This includes donating, repairing, and repurposing.
3. Recycling: The processing of waste materials into new products, reducing the need for virgin materials.
4. Recovery: The process of extracting energy from non-recyclable waste through methods such as incineration with energy recovery, gasification, and anaerobic digestion.
5. Disposal: The waste disposal method via landfilling and incineration without energy recovery. This is the least preferred option and should only be used when waste cannot be prevented, reused, recycled or recovered.

Proper Waste Disposal Methods

As mentioned in the hierarchy, disposal is the least effective in managing waste and minimizing environmental impact, hence, multiple waste management strategies and proper waste disposal methods have become available in these modern days. Other alternatives for waste disposal include the following:

Composting – this is an eco-friendly method that transforms organic waste into nutrient-rich compost that can enhance soil quality and reduce landfill waste.

Waste-to-Energy (WTE) – it is the conversion of non-recyclable waste into heat, electricity, or fuel using renewable energy sources such as:

• Anaerobic digestion – the biological reprocessing of organic waste in an oxygen-free environment into methane-rich biogas that can be used for heating or electricity generation.
• Gasification – the conversion of organic waste into synthetic gas (syngas) which can then be used as a fuel for electric generation or as chemical feedstock, producing fewer pollutants compared to incineration.
• Pyrolysis – the thermal decomposition process that breaks down waste into bio-oil, syngas and char.

Bioremediation – this utilizes microorganisms to detoxify contaminated environments, offering a natural method for cleaning up hazardous waste sites.

How to Create a Waste Management Plan

Before forming a waste management plan, get input and buy in from various stakeholders. Ask for suggestions on how to be more eco-friendly. Next, assess the strength of the current system by conducting waste audits. After reviewing the waste audit results, identify development needs including budget, estimated waste composition, current waste reduction, and waste generation.

Once goals for the waste management plan have been finalized, perform the following steps:

1. Determine the needed resources (containers, vehicles, etc.)
2. Assign a point person and clarify their responsibilities
3. Prepare a timeline for implementation

Aside from keeping all waste audit results, document the day-to-day waste disposal and resource use of the organization.

Role of Training in Implementing a Waste Management System

The best way to engrain these guidelines into your workers is by putting together a robust training program on your waste management systems with the help of a digital operations platform.  By reinforcing your waste management system plans through regular training, workers will be better equipped with the knowledge and skills needed to identify potential hazards.