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Global Agricultural Waste to Energy Market Size, Analysis, Forecast: By Type: Solid, Semi-Solid, Liquid; By End Product: Biogas, Biofuel, Others; By Application: Electricity, Heat, Others; Regional Analysis; Market Dynamics: SWOT Analysis, Porter’s Five Forces Analysis; Competitive Landscape; Key Trends and Developments in the Market; 2018-2028
Global Agricultural Waste to Energy Market Outlook
The global agricultural waste to energy market would likely grow at a CAGR of 6.2% during 2023-2028. Farm activities generate a significant amount of residue and waste, leading to environmental problems.
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Waste is produced during crop harvesting and processing, and product synthesis, among associated activities. Studies have revealed that agricultural residue and waste could be a renewable carbon resource and converted into energy products, biofuels and biofertilisers. Further, several companies are engaged in developing technologies to utilise agricultural residue and waste, chiefly as fuel. Such initiatives would help clean the environment and help farmers develop an additional source of income. North America, Asia and Europe are likely to be key markets.
Global Market Likely to be Driven by Need to Recycle Agricultural Residue and Waste
Quick growth in volume and kinds of waste agricultural biomass has gained much attention as decayed waste agricultural biomass releases leachate and methane, and open burning to clear lands begets CO2 and added toxins. Inappropriate management of waste agricultural biomass contributes to climate change, soil and water adulteration, and air pollution. The waste has high value in relation to energy and material recovery. Traditionally, agricultural residue was employed as cattle fodder or as raw material for bio-fertilisers or biofuel. But in several cases, stubble, stalk, husks, leaves, and seed pods are not usable. Thus, the need arises for efficient and feasible methods of recycling crop residue.
Governments and other bodies are making significant efforts to manage waste agricultural biomass and transform it into a material resource. Technical innovations have enabled the use of biomass as a valuable fuel source. Biomass, previously burned as waste on the fields, has as result risen in value and also helped increase the income of farmers. Today, agricultural waste products are collected and utilized as fuel for energy production. Such developments are likely to boost the global agricultural waste to energy market.
Waste to Energy Conversion Procedure for Power and Heat Creation Holds Significant Economic Potential
Large volumes of agricultural waste that result from cultivation activities of crop offer a likely source of energy supply for processing, production and domestic actions in rural regions. While on average, one and a half tons of crop residue is produced for every one ton of the main product processed, significant secondary residue is generated in agro-industries processing farm produce, such as paddy, sugarcane, vegetables, coconut and fruits.
There generally is a disposal cost associated with agricultural residues, thus, the “waste-to-energy” conversion procedure for power and heat creation, and also transport fuel production, could have significant economic and market potential. These hold value, especially in rural community applications, and are extensively employed in countries such as Denmark, Sweden, USA, Netherlands, Austria, Canada, and Finland. These factors are likely to boost the global agricultural waste to energy market. EU nations exhibit significant potential in relation to agricultural biomass. As there is high demand for the resource in agriculture, nearly 15% of the present potential is usable for energy purposes. Straw from cereal crops and cultivation of energy crops on fallow land offer the highest potential.
Market Segmentation
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By type, the market is segmented into:
- Solid
- Semi-Solid
- Liquid
By end product, the market is divided into:
- Biogas
- Biofuel
- Others
By application, the global agricultural waste to energy market is classified into:
- Electricity
- Heat
- Others
By region, the market is segmented into:
- Europe
- North America
- Latin America
- Asia Pacific
- Middle East and Africa
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Key Industry Players in the Market
The report offers an extensive assessment of major players in the global agricultural waste to energy market; it evaluates their capability, observes latest occurrences such as mergers and acquisitions, capacity expansions, and plant turnarounds:
- Ameresco, Inc
- EvoEnergy Limited
- Green Elephant GmbH
- Fulcrum BioEnergy, Inc.
- SynTech Bioenergy, LLC
- Anaergia Inc.
- Woodland Biofuels Inc.
- Inventure Renewables, Inc.
- Khepra Incorporated
- Wastefuel
- Others
Key Highlights of the Report
| REPORT FEATURES | DETAILS |
|---|---|
| Base Year | 2022 |
| Historical Period | 2018-2022 |
| Forecast Period | 2023-2028 |
| Scope of the Report |
Historical and Forecast Trends, Industry Drivers and Constraints, Historical and Forecast Market Analysis by Segment:
|
| Breakup by Type |
|
| Breakup by End Product |
|
| Breakup by Application |
|
| Breakup by Region |
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| Market Dynamics |
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| Competitive Landscape |
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| Companies Covered |
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*At Expert Market Research, we strive to always give you current and accurate information. The numbers depicted in the description are indicative and may differ from the actual numbers in the final EMR report.
1 Preface
2 Report Coverage – Key Segmentation and Scope
3 Report Description
3.1 Market Definition and Outlook
3.2 Properties and Applications
3.3 Market Analysis
3.4 Key Players
4 Key Assumptions
5 Executive Summary
5.1 Overview
5.2 Key Drivers
5.3 Key Developments
5.4 Competitive Structure
5.5 Key Industrial Trends
6 Market Snapshot
6.1 Global
6.2 Regional
7 Industry Opportunities and Challenges
8 Global Agricultural Waste to Energy Market Analysis
8.1 Key Industry Highlights
8.2 Global Agricultural Waste to Energy Historical Market (2018-2022)
8.3 Global Agricultural Waste to Energy Market Forecast (2023-2028)
8.4 Global Agricultural Waste to Energy Market by Type
8.4.1 Solid
8.4.1.1 Market Share
8.4.1.2 Historical Trend (2018-2022)
8.4.1.3 Forecast Trend (2023-2028)
8.4.2 Semi-Solid
8.4.2.1 Market Share
8.4.2.2 Historical Trend (2018-2022)
8.4.2.3 Forecast Trend (2023-2028)
8.4.3 Liquid
8.4.3.1 Market Share
8.4.3.2 Historical Trend (2018-2022)
8.4.3.3 Forecast Trend (2023-2028)
8.5 Global Agricultural Waste to Energy Market by End Product
8.5.1 Biogas
8.5.1.1 Market Share
8.5.1.2 Historical Trend (2018-2022)
8.5.1.3 Forecast Trend (2023-2028)
8.5.2 Biofuel
8.5.2.1 Market Share
8.5.2.2 Historical Trend (2018-2022)
8.5.2.3 Forecast Trend (2023-2028)
8.5.3 Others
8.6 Global Agricultural Waste to Energy Market by Application
8.6.1 Electricity
8.6.1.1 Market Share
8.6.1.2 Historical Trend (2018-2022)
8.6.1.3 Forecast Trend (2023-2028)
8.6.2 Heat
8.6.2.1 Market Share
8.6.2.2 Historical Trend (2018-2022)
8.6.2.3 Forecast Trend (2023-2028)
8.6.3 Others
8.7 Global Agricultural Waste to Energy Market by Region
8.7.1 North America
8.7.1.1 Market Share
8.7.1.2 Historical Trend (2018-2022)
8.7.1.3 Forecast Trend (2023-2028)
8.7.2 Europe
8.7.2.1 Market Share
8.7.2.2 Historical Trend (2018-2022)
8.7.2.3 Forecast Trend (2023-2028)
8.7.3 Asia Pacific
8.7.3.1 Market Share
8.7.3.2 Historical Trend (2018-2022)
8.7.3.3 Forecast Trend (2023-2028)
8.7.4 Latin America
8.7.4.1 Market Share
8.7.4.2 Historical Trend (2018-2022)
8.7.4.3 Forecast Trend (2023-2028)
8.7.5 Middle East and Africa
8.7.5.1 Market Share
8.7.5.2 Historical Trend (2018-2022)
8.7.5.3 Forecast Trend (2023-2028)
9 North America Agricultural Waste to Energy Market Analysis
9.1 United States of America
9.1.1 Market Share
9.1.2 Historical Trend (2018-2022)
9.1.3 Forecast Trend (2023-2028)
9.2 Canada
9.2.1 Market Share
9.2.2 Historical Trend (2018-2022)
9.2.3 Forecast Trend (2023-2028)
10 Europe Agricultural Waste to Energy Market Analysis
10.1 United Kingdom
10.1.1 Market Share
10.1.2 Historical Trend (2018-2022)
10.1.3 Forecast Trend (2023-2028)
10.2 Germany
10.2.1 Market Share
10.2.2 Historical Trend (2018-2022)
10.2.3 Forecast Trend (2023-2028)
10.3 France
10.3.1 Market Share
10.3.2 Historical Trend (2018-2022)
10.3.3 Forecast Trend (2023-2028)
10.4 Italy
10.4.1 Market Share
10.4.2 Historical Trend (2018-2022)
10.4.3 Forecast Trend (2023-2028)
10.5 Others
11 Asia Pacific Agricultural Waste to Energy Market Analysis
11.1 China
11.1.1 Market Share
11.1.2 Historical Trend (2018-2022)
11.1.3 Forecast Trend (2023-2028)
11.2 Japan
11.2.1 Market Share
11.2.2 Historical Trend (2018-2022)
11.2.3 Forecast Trend (2023-2028)
11.3 India
11.3.1 Market Share
11.3.2 Historical Trend (2018-2022)
11.3.3 Forecast Trend (2023-2028)
11.4 ASEAN
11.4.1 Market Share
11.4.2 Historical Trend (2018-2022)
11.4.3 Forecast Trend (2023-2028)
11.5 Australia
11.5.1 Market Share
11.5.2 Historical Trend (2018-2022)
11.5.3 Forecast Trend (2023-2028)
11.6 Others
12 Latin America Agricultural Waste to Energy Market Analysis
12.1 Brazil
12.1.1 Market Share
12.1.2 Historical Trend (2018-2022)
12.1.3 Forecast Trend (2023-2028)
12.2 Argentina
12.2.1 Market Share
12.2.2 Historical Trend (2018-2022)
12.2.3 Forecast Trend (2023-2028)
12.3 Mexico
12.3.1 Market Share
12.3.2 Historical Trend (2018-2022)
12.3.3 Forecast Trend (2023-2028)
12.4 Others
13 Middle East and Africa Agricultural Waste to Energy Market Analysis
13.1 Saudi Arabia
13.1.1 Market Share
13.1.2 Historical Trend (2018-2022)
13.1.3 Forecast Trend (2023-2028)
13.2 United Arab Emirates
13.2.1 Market Share
13.2.2 Historical Trend (2018-2022)
13.2.3 Forecast Trend (2023-2028)
13.3 Nigeria
13.3.1 Market Share
13.3.2 Historical Trend (2018-2022)
13.3.3 Forecast Trend (2023-2028)
13.4 South Africa
13.4.1 Market Share
13.4.2 Historical Trend (2018-2022)
13.4.3 Forecast Trend (2023-2028)
13.5 Others
14 Market Dynamics
14.1 SWOT Analysis
14.1.1 Strengths
14.1.2 Weaknesses
14.1.3 Opportunities
14.1.4 Threats
14.2 Porter’s Five Forces Analysis
14.2.1 Supplier’s Power
14.2.2 Buyer’s Power
14.2.3 Threat of New Entrants
14.2.4 Degree of Rivalry
14.2.5 Threat of Substitutes
15 Competitive Landscape
15.1 Market Structure
15.2 Company Profiles
15.2.1 Ameresco, Inc
15.2.1.1 Company Overview
15.2.1.2 Product Portfolio
15.2.1.3 Demographic Reach and Achievements
15.2.1.4 Certifications
15.2.2 EvoEnergy Limited
15.2.2.1 Company Overview
15.2.2.2 Product Portfolio
15.2.2.3 Demographic Reach and Achievements
15.2.2.4 Certifications
15.2.3 Green Elephant GmbH
15.2.3.1 Company Overview
15.2.3.2 Product Portfolio
15.2.3.3 Demographic Reach and Achievements
15.2.3.4 Certifications
15.2.4 Fulcrum BioEnergy, Inc.
15.2.4.1 Company Overview
15.2.4.2 Product Portfolio
15.2.4.3 Demographic Reach and Achievements
15.2.4.4 Certifications
15.2.5 SynTech Bioenergy, LLC
15.2.5.1 Company Overview
15.2.5.2 Product Portfolio
15.2.5.3 Demographic Reach and Achievements
15.2.5.4 Certifications
15.2.6 Anaergia Inc.
15.2.6.1 Company Overview
15.2.6.2 Product Portfolio
15.2.6.3 Demographic Reach and Achievements
15.2.6.4 Certifications
15.2.7 Woodland Biofuels Inc.
15.2.7.1 Company Overview
15.2.7.2 Product Portfolio
15.2.7.3 Demographic Reach and Achievements
15.2.7.4 Certifications
15.2.8 Inventure Renewables, Inc.
15.2.8.1 Company Overview
15.2.8.2 Product Portfolio
15.2.8.3 Demographic Reach and Achievements
15.2.8.4 Certifications
15.2.9 Khepra Incorporated
15.2.9.1 Company Overview
15.2.9.2 Product Portfolio
15.2.9.3 Demographic Reach and Achievements
15.2.9.4 Certifications
15.2.10 Wastefuel
15.2.10.1 Company Overview
15.2.10.2 Product Portfolio
15.2.10.3 Demographic Reach and Achievements
15.2.10.4 Certifications
15.2.11 Others
16 Key Trends and Developments in the Market
List of Figures and Tables
1. Global Agricultural Waste to Energy Market: Key Industry Highlights, 2018 and 2028
2. Global Agricultural Waste to Energy Historical Market: Breakup by Type (USD Million), 2018-2022
3. Global Agricultural Waste to Energy Market Forecast: Breakup by Type (USD Million), 2023-2028
4. Global Agricultural Waste to Energy Historical Market: Breakup by End Product (USD Million), 2018-2022
5. Global Agricultural Waste to Energy Market Forecast: Breakup by End Product (USD Million), 2023-2028
6. Global Agricultural Waste to Energy Historical Market: Breakup by Region (USD Million), 2018-2022
7. Global Agricultural Waste to Energy Market Forecast: Breakup by Region (USD Million), 2023-2028
8. North America Agricultural Waste to Energy Historical Market: Breakup by Country (USD Million), 2018-2022
9. North America Agricultural Waste to Energy Market Forecast: Breakup by Country (USD Million), 2023-2028
10. Europe Agricultural Waste to Energy Historical Market: Breakup by Country (USD Million), 2018-2022
11. Europe Agricultural Waste to Energy Market Forecast: Breakup by Country (USD Million), 2023-2028
12. Asia Pacific Agricultural Waste to Energy Historical Market: Breakup by Country (USD Million), 2018-2022
13. Asia Pacific Agricultural Waste to Energy Market Forecast: Breakup by Country (USD Million), 2023-2028
14. Latin America Agricultural Waste to Energy Historical Market: Breakup by Country (USD Million), 2018-2022
15. Latin America Agricultural Waste to Energy Market Forecast: Breakup by Country (USD Million), 2023-2028
16. Middle East and Africa Agricultural Waste to Energy Historical Market: Breakup by Country (USD Million), 2018-2022
17. Middle East and Africa Agricultural Waste to Energy Market Forecast: Breakup by Country (USD Million), 2023-2028
18. Global Agricultural Waste to Energy Market Structure
Key Questions Answered in the Report
The global market for agricultural waste to energy is projected to grow at a CAGR of 6.2% between 2023 and 2028.
The major drivers of the market include the programmes and policies by various government, increased attention on reducing global dependence on coal and other fossil fuels, and rising energy demand.
Rise in investments in renewable energy, high rates of farming production, and a shift towards sustainable energy are the key industry trends propelling the growth of the market.
The major regions in the global agricultural waste to energy market are North America, Latin America, the Middle East and Africa, Europe, and the Asia Pacific.
On the basis of end product, the market is segmented into biogas and biofuel, among others.
The major players in the industry are Ameresco, Inc, EvoEnergy Limited, Green Elephant GmbH, Fulcrum BioEnergy, Inc., SynTech Bioenergy, LLC, Anaergia Inc., Woodland Biofuels Inc., Inventure Renewables, Inc., Khepra Incorporated, and Wastefuel, among others.
Instead of being burned or left to fester on the fields, agricultural waste can be transformed into climate-friendly fuel in biomass power plants, where biomass is used to produce energy that is fed into the local power grid.
Through several processes, including combustion, gasification, pyrolysis, anaerobic digestion, and landfill gas recovery, non-recyclable waste materials can be converted into useable heat, electricity, or fuel.
Agricultural waste biomass is converted into biogas and biofuel.
Straw, winery trash, or manure are examples of agricultural wastes that can be recovered and transformed into fertiliser, energy, materials, and chemicals.
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