Waste Management Market: Global Research Analysis and Forecast (2024-2030)
Waste Management Market size was valued at US $ 491.81 Billion in 2023 and the Waste Management Market revenue is expected to grow at 5.12% through 2024 to 2030, reaching nearly US $ 697.58 Billion. The report analyzes Waste Management Market dynamics by region and end-user industries.
Format : PDF | Report ID : SMR_419
Waste Management Market Overview:
Waste management refers to the processes and actions required to manage trash from its conception through its final disposal (or waste disposal). Waste collection, transportation, treatment, and disposal are all covered, as well as waste management process monitoring and control, as well as waste-related legislation, technology, and economic systems. Solid, liquid, and gaseous wastes all have different disposal and management procedures. Waste management deals with biological, industrial, domestic, municipal, organic, biomedical, and radioactive wastes. Waste Management Market report's segment analysis is provided on the basis of waste type, service type, end-use industry and region.
In some cases, waste can be damaging to human health. There are health issues throughout the waste management process. Health issues can manifest themselves in many ways, both indirectly and directly. Directly, through the management of solid waste, and indirectly, through the use of water, soil, and food. Waste is produced by human activities, such as mining and processing fundamental materials. Goal in the Waste Management Market is to reduce the negative consequences of trash on human health, the environment, global resources, and aesthetics.
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Waste Management Market Dynamics:
Electronic gadget life cycles are shortening, resulting in more e-waste:
The normal life cycle of an electronic product includes product creation, launch, growth, maturity, and disposal or recycling. End-of-life electrical products, technical breakthroughs, and changing consumer needs all contribute to their recycling. As a result of quick new developments, new electronic gadgets and enhanced versions of previous products, such as laptops, mobile phones, and televisions, are created. Similarly, the shelf life of technical items extends as people's purchasing power increases. This inceased demand of less shelf life electronic products is expected growth driver in the waste management market.
Every year, new models of cell phones and other electronic devices are launched, and older models are either discarded or sold on websites for reuse. E-waste is becoming more prevalent as the life cycle of electronic products shortens. This accumulation of electronic waste demands the need to recycle electronic equipment, which requires electronic waste management, hence supporting the growth of the waste management market.
The average lifespan of consumer products and the parts that go into them has been steadily decreasing since the introduction of PCs and mobile phones. Electronics that used to be expected to last 40 years or more now have an average lifespan of 1.5 to 13 years, with the majority lasting 4-5 years.
The necessary infrastructure for waste collection and separation is missing:
Garbage segregation is the separation of dry and wet waste, allowing for other waste management techniques such as composting, recycling, and cremation. The goal is to reduce rubbish in landfills while also preventing pollution of land, water, and air in the long run. Garbage and plastic products, as well as other commodities including paper, metals, and wood products, must be collected and classified properly to be recycled. Demand rise with infrastructure growth is fueling the waste management market.
The incorrect disposal of rubbish poses a substantial hazard to municipalities and other waste management market stakeholders. Those who reside near contaminated areas or landfills may suffer serious health consequences as a result of poor rubbish disposal. Inadequately managed wastes can cause skin irritations, blood infections, respiratory problems, growth disorders, and even reproductive complications. Trash management systems have been successfully implemented in industrialized countries such as the United States, Australia, Japan, and Germany, allowing for adequate waste treatment and assuring positive recycling outcomes.
When it comes to the real world, though, there aren't many cases like this. Countries such as Egypt, Turkey, South Africa, Nigeria, Brazil, and the Middle East have failed to standardize and organize their waste management frameworks, resulting in significant waste processing errors. Different forms of rubbish should be separated at the source, allowing for the recovery of a considerable percentage of recyclable waste while decreasing total labor and time.
Unscientific treatment, inefficient garbage collection, and ethical difficulties such as the disposal of e-waste are all major concerns in solid waste management. As a result, environmental degradation, water pollution, soil pollution, and air pollution become issues, restricting the growth of the waste management market.
It is more expensive to recycle plastic than it is to manufacture it:
The principal raw materials used to create virgin plastics are petrochemicals, such as oil and natural gas. PET stands for polyethylene terephthalate and is a recyclable material. A problem associated with recycling plastic is the formation of a clean stream of recycled material. Although PET plastics have little resale value, they can be recycled into other goods such as new containers and fleece clothes. Fillers and colorants are among the additives used in the manufacture of plastic products. The majority of recycling companies have no idea what is added to plastic, which has an impact on plastic recycling.
When adopting thermochemical processes to recover energy, separating plastic from various sorts of waste streams is a difficult operation. In many waste management systems, plastic sorting is a key step. Sorting and segregating plastic is also time-consuming and expensive when compared to the significantly less expensive manufacturing of virgin plastic from petrochemicals.
Construction and demolition (C&D) materials are being used more frequently in metropolitan areas as the number of construction projects rises:
Construction and demolition (C&D) materials are used to build, renovate, and demolish buildings, roadways, and bridges. The Environmental Protection Agency (EPA) promotes a Sustainable Materials Management (SMM) strategy, in which some C&D resources are identified as commodities that can be used in new construction projects rather than virgin materials that must be mined and processed. The majority of construction and demolition waste produced in the United States is lawfully destined for landfills under the Code of Federal Regulations (CFR).
In some regions, all or part of the construction and demolition waste stream is deposited unlawfully on land or in natural drainage systems, including water, in violation of laws designed to protect human health, commerce, and the environment. Millions of tonnes of building waste are legally disposed of in solid waste landfills in the United States each year by corporations and citizens.
To encourage long-term economic growth, smart cities are being constructed in urban regions. According to the United Nations, cities will house 60% of the world's population by 2030, with one out of every three people living in a city with a population of 500,000 or more. More than a hundred smart city initiatives are currently in the works around the world, with huge implications for the building industry. The current economic potential for waste management market rivals is driven by the need for building, as well as the requirement for roadways.
Waste Management Market Segmentation:
Based on Waste Type: Thanks to the COVID-19 pandemic, the use of bio-medical accessories increased, resulting in more bio-medical waste in 2020. The E-waste category is likely to lead the waste management market over the forecast period. E-waste includes rubbish from electrically powered components.
These appliances include computers, consumer electronics, and refrigerators, to name a few. E-waste is a mixture of beneficial and hazardous materials that must be handled carefully and repurposed. As a result, e-waste treatment has become more vital around the world to safeguard the environment from dangerous substances like lead and plastics.
Waste Management Market Regional Insights:
The Asia Pacific had the largest market share of xx% of the market in 2023. The countries that make up the region are China, Japan, India, Australia, South Korea, and the Rest of Asia Pacific. The rest of Asia Pacific is made up of Singapore, Malaysia, Thailand, and Indonesia. Only a few of the key causes driving waste management market growth in the region are the region's population increase, people's high disposable income, and rising demand for packaged food commodities. Marine plastic pollution is also a serious problem in the Asia-Pacific region. Among the materials used are plastic bottles, plastic bags, single-use plastic goods, and plastic packaging. China, Indonesia, and Thailand are three of the world's most polluted nations.
Also, a growth in urban residents' well-being and affluence is closely linked to increased consumption and production patterns, which has consequences for waste streams. Solid waste creation in cities is particularly prevalent in low- and middle-income countries. In recent years, the rate of waste generation in these countries has increased, and this trend is expected to continue over the next decade and beyond.
According to the United Nations, Economic and Social Commission for Asia and the Pacific (UNESCAP), between 50% and 65% of municipal solid waste in low- and middle-income countries is organic, which can be converted into high-quality compost for use in agriculture, gardening, or landscaping, or converted to biogas for heat and electricity generation. Glass, plastic, and metal are examples of inorganic materials that may be recycled in large quantities. Also, the development of novel glass-based materials provides the last alternative for open-loop recycling, which is better for the environment than landfilling.
The objective of the report is to present a comprehensive analysis of the Waste Management Market to the stakeholders in the industry. The report provides trends that are most dominant in the Waste Management Market and how these trends will influence new business investments and market development throughout the forecast period. The report also aids in the comprehension of the market dynamics and competitive structure of the market by analyzing market leaders, market followers, and regional players.
The qualitative and quantitative data provided in the Waste Management Market report is to help understand which market segments, regions are expected to grow at higher rates, factors affecting the market, and key opportunity areas, which will drive the industry and market growth through the forecast period. The report also includes the competitive landscape of key players in the industry along with their recent developments in the Waste Management Market. The report studies factors such as company size, market share, market growth, revenue, production volume, and profits of the key players in the market.
The report provides Porter's Five Force Model, which helps in designing the business strategies in the market. The report helps in identifying how many rivals are existing, who they are, and how their product quality is in the Market. The report also analyses if the Waste Management Market is easy for a new player to gain a foothold in the market, do they enter or exit the market regularly if the market is dominated by a few players, etc.
The report also includes a PESTEL Analysis, which aids in the development of company strategies. Political variables help in figuring out how much a government can influence the Market. Economic variables aid in the analysis of economic performance drivers that have an impact on the Market. Understanding the impact of the surrounding environment and the influence of environmental concerns on the Waste Management Market is aided by legal factors.
Waste Management Market Scope:
Waste Management Market |
|
Market Size in 2023 |
USD 491.81 Bn. |
Market Size in 2030 |
USD 697.58Bn. |
CAGR (2024-2030) |
5.12% |
Historic Data |
2018-2022 |
Base Year |
2023 |
Forecast Period |
2024-2030 |
Segment Scope |
by Waste Type
|
by Service Type
|
|
by End-use Industry
|
|
Regional Scope |
North America- United States, Canada, and Mexico Europe – UK, France, Germany, Italy, Spain, Sweden, Austria, and Rest of Europe Asia Pacific – China, India, Japan, South Korea, Australia, ASEAN, Rest of APAC Middle East and Africa - South Africa, GCC, Egypt, Nigeria, Rest of the Middle East and Africa South America – Brazil, Argentina, Rest of South America |
Waste Management Market Key Players
- Clean Harbors Inc. (United States)
- Daiseki Co. Ltd. (Japan)
- Waste Management Inc. (United States)
- Suez Environment S.A. (United States)
- Advanced Disposal Services (United States)
- Veolia Environment S.A (France)
- Republic Services Inc. (United States)
- Covanta (United States)
- Biffa Group (United Kingdom)
- Recology (United States)
- Keppel Segher (Qatar)
- Others (*List of Key Players is not Exhaustive)
Frequently Asked Questions
The absence of a required framework for the collection and segregation of waste is the key factor hindering the growth of the waste management market.
The Waste Management market is expected to grow at a CAGR of 5.12% during the forecast period (2024-2030).
The increasing E-waste because of the shortened life span of electronic devices is driving and expected to drive the growth of the market during the forecast period.
Clean Harbors Inc. (United States), Daiseki Co. Ltd. (Japan), Waste Management Inc. (United States), Suez Environment S.A. (United States), Advanced Disposal Services (United States), Veolia Environment S.A (France), Republic Services Inc. (United States), Covanta (United States), Biffa Group (United Kingdom), Recology (United States), Keppel Segher (Qatar), and Others are the key players covered.
Chapter 1 Scope of the Report
Chapter 2 Research Methodology
2.1. Research Type
2.2. Global Waste Management Market: Target Audience
2.3. Global Waste Management Market: Primary Research (As per Client Requirement)
2.4. Global Waste Management Market: Secondary Research
Chapter 3 Executive Summary
Chapter 4 Competitive Landscape
4.1. Market Share Analysis, By Value, 2023-2030
4.1.1. Market Share Analysis, By Region, By Value, 2023-2030 (In %)
4.1.1.1.North America Market Share Analysis, By Value, 2023-2030 (In %)
4.1.1.2.Europe Market Share Analysis, By Value, 2023-2030 (In %)
4.1.1.3.Asia Pacific Market Share Analysis, By Value, 2023-2030 (In %)
4.1.1.4.South America Market Share Analysis, By Value, 2023-2030 (In %)
4.1.1.5.Middle East and Africa Market Share Analysis, By Value, 2023-2030 (In %)
4.1.2. Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.1.North America Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.1.1. USA Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.1.2. Canada Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.1.3. Mexico Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2. Europe Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2.1. UK Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2.2. France Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2.3. Germany Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2.4. Italy Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2.5. Spain Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2.6. Sweden Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2.7. Austria Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.2.8. Rest of Europe Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.3. Asia Pacific Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.3.1. China Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.3.2. India Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.3.3. Japan Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.3.4. South Korea Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.3.5. Australia Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.3.6. ASEAN Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.3.7. Rest of APAC Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.4. South America Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.4.1. Brazil Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.4.2. Argentina Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.4.3. Rest of South America Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.5. Middle East and Africa Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.5.1. South Africa Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.5.2. GCC Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.5.3. Egypt Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.5.4. Nigeria Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.2.5.5. Rest of Middle East and Africa Market Share Analysis, By Waste Type, By Value, 2023-2030 (In %)
4.1.3. Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4. North America Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.1.1. USA Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.1.2. Canada Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.1.3. Mexico Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2. Europe Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2.1. UK Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2.2. France Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2.3. Germany Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2.4. Italy Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2.5. Spain Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2.6. Sweden Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2.7. Austria Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.2.8. Rest of Europe Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.3. Asia Pacific Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.3.1. China Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.3.2. India Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.3.3. Japan Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.3.4. South Korea Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.3.5. Australia Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.3.6. ASEAN Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.3.7. Rest of APAC Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.4. South America Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.4.1. Brazil Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.4.2. Argentina Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.4.3. Rest of South America Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.5. Middle East and Africa Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.5.1. South Africa Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.5.2. GCC Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.5.3. Egypt Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.5.4. Nigeria Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.4.5.5. Rest of Middle East and Africa Market Share Analysis, By Service Type, By Value, 2023-2030 (In %)
4.1.5. Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6. North America Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.1.1. USA Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.1.2. Canada Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.1.3. Mexico Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2. Europe Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2.1. UK Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2.2. France Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2.3. Germany Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2.4. Italy Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2.5. Spain Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2.6. Sweden Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2.7. Austria Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.2.8. Rest of Europe Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.3. Asia Pacific Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.3.1. China Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.3.2. India Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.3.3. Japan Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.3.4. South Korea Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.3.5. Australia Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.3.6. ASEAN Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.3.7. Rest of APAC Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.4. South America Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.4.1. Brazil Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.4.2. Argentina Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.4.3. Rest of South America Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.5. Middle East and Africa Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.5.1. South Africa Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.5.2. GCC Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.5.3. Egypt Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.5.4. Nigeria Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.1.6.5.5. Rest of Middle East and Africa Market Share Analysis, By End-Use Industry, By Value, 2023-2030 (In %)
4.2. Stellar Competition matrix
4.2.1. Global Stellar Competition Matrix
4.2.2. North America Stellar Competition Matrix
4.2.3. Europe Stellar Competition Matrix
4.2.4. Asia Pacific Stellar Competition Matrix
4.2.5. South America Stellar Competition Matrix
4.2.6. Middle East and Africa Stellar Competition Matrix
4.3. Key Players Benchmarking
4.3.1. Key Players Benchmarking by Waste Type, Pricing, Market Share, Investments, Expansion Plans, Physical Presence and Presence in the Market.
4.4. Mergers and Acquisitions in Industry
4.4.1. M&A by Region, Value and Strategic Intent
4.5. Market Dynamics
4.5.1. Market Drivers
4.5.2. Market Restraints
4.5.3. Market Opportunities
4.5.4. Market Challenges
4.5.5. PESTLE Analysis
4.5.6. PORTERS Five Force Analysis
4.5.7. Value Chain Analysis
Chapter 5 Global Waste Management Market Segmentation: By Waste Type
5.1. Global Waste Management Market, By Waste Type, Overview/Analysis, 2023-2030
5.2. Global Waste Management Market, By Waste Type, By Value, Market Share (%), 2023-2030 (USD Billion)
5.3. Global Waste Management Market, By Waste Type, By Value, -
5.3.1. E-waste
5.3.2. Plastic waste
5.3.3. Bio-medical waste
5.3.4. Hazardous waste
5.3.5. Others
Chapter 6 Global Waste Management Market Segmentation: By Service Type
6.1. Global Waste Management Market, By Service Type, Overview/Analysis, 2023-2030
6.2. Global Waste Management Market Size, By Service Type, By Value, Market Share (%), 2023-2030 (USD Billion)
6.3. Global Waste Management Market, By Service Type, By Value, -
6.3.1.Landfill
6.3.2.Recycling
6.3.3.Incineration
6.3.4.Open Dumping
6.3.5.Composition & Anaerobic Digestion
Chapter 7 Global Waste Management Market Segmentation: By End-Use Industry
7.1. Global Waste Management Market, By End-Use Industry, Overview/Analysis, 2023-2030
7.2. Global Waste Management Market Size, By End-Use Industry, By Value, Market Share (%), 2023-2030 (USD Billion)
7.3. Global Waste Management Market, By End-Use Industry, By Value, -
7.3.1.Commercial
7.3.2.Industrial
7.3.3.Residential
Chapter 8 Global Waste Management Market Segmentation: By Region
8.1. Global Waste Management Market, By Region – North America
8.1.1. North America Waste Management Market Size, By Waste Type, By Value, 2023-2030 (USD Billion)
8.1.2. North America Waste Management Market Size, By Service Type, By Value, 2023-2030 (USD Billion)
8.1.3. North America Waste Management Market Size, By End-Use Industry, By Value, 2023-2030 (USD Billion)
8.1.4. By Country – U.S.
8.1.4.1.U.S. Waste Management Market Size, By Waste Type, By Value, 2023-2030 (USD Billion)
8.1.4.2.U.S. Waste Management Market Size, By Service Type, By Value, 2023-2030 (USD Billion)
8.1.4.3.U.S. Waste Management Market Size, By End-Use Industry, By Value, 2023-2030 (USD Billion)
8.1.4.4.Canada Waste Management Market Size, By Value, 2023-2030 (USD Billion)
8.1.4.5.Mexico Waste Management Market Size, By Value, 2023-2030 (USD Billion)
8.2. Europe Waste Management Market Size, By Value, 2023-2030 (USD Billion)
8.2.1.UK
8.2.2.France
8.2.3.Germany
8.2.4.Italy
8.2.5.Spain
8.2.6.Sweden
8.2.7.Austria
8.2.8.Rest of Europe
8.3. Asia Pacific Waste Management Market Size, By Value, 2023-2030 (USD Billion)
8.3.1.China
8.3.2.India
8.3.3.Japan
8.3.4.South Korea
8.3.5.Australia
8.3.6.ASEAN
8.3.7.Rest of APAC
8.4. Middle East and Africa Waste Management Market Size, By Value, 2023-2030 (USD Billion)
8.4.1.South Africa
8.4.2.GCC
8.4.3.Egypt
8.4.4.Nigeria
8.4.5.Rest of Middle East and Africa
8.5. South America Waste Management Market Size, By Value, 2023-2030 (USD Billion)
8.5.1.Brazil
8.5.2.Argentina
8.5.3.Rest of South America
Chapter 9 Company Profiles
9.1. Key Players
9.1.1. Clean Harbors, Inc. (United States)
9.1.1.1.Company Overview
9.1.1.2.Waste Type Portfolio
9.1.1.3.Financial Overview
9.1.1.4.Business Strategy
9.1.1.5.Key Developments
9.1.2. Daiseki Co. Ltd. (Japan)
9.1.3. Waste Management Inc. (United States)
9.1.4.Suez Environment S.A. (United States)
9.1.5.Advanced Disposal Services (United States)
9.1.6.Veolia Environment S.A (France)
9.1.7.Republic Services Inc. (United States)
9.1.8.Covanta (United States)
9.1.9.Biffa Group (United Kingdom)
9.1.10. Recology (United States)
9.1.11. Keppel Segher (Qatar)
9.1.12. Others
9.2. Key Findings
9.3. Recommendations