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Global Biomethane Market Size By Type of Feedstock, By Technology of Production, By End-Use, By Geographic Scope And Forecast


Published on: 2024-08-01 | No of Pages : 320 | Industry : latest updates trending Report

Publisher : MIR | Format : PDF&Excel

Global Biomethane Market Size By Type of Feedstock, By Technology of Production, By End-Use, By Geographic Scope And Forecast

Biomethane Market Size And Forecast

Biomethane Market size was valued at USD 1.08 Billion 2023 and is projected to reach USD 2.76 Billion by 2030, growing at a CAGR of 5.8% during the forecasted period 2024 to 2030.

Global Biomethane Market Drivers

The market drivers for the Biomethane Market can be influenced by various factors. These may include

  • Renewable Energy Transition The move to renewable energy sources is fueled by the growing emphasis on lowering greenhouse gas emissions and combating climate change. Produced from renewable biomass and organic waste, biomethane is a sustainable fuel substitute that aids in the energy sector’s decarbonization efforts.
  • Government Policies and Incentives To encourage the generation of renewable energy and lessen reliance on fossil fuels, governments offer supportive regulatory frameworks, incentives, and subsidies, which fuel the expansion of the biomethane industry. Feed-in tariffs, renewable energy standards, carbon pricing schemes, and tax breaks all promote the development of biomethane infrastructure and projects.
  • Initiatives for the Circular Economy By turning organic waste, agricultural wastes, and biodegradable materials into useful energy resources, the production of biomethane is consistent with the circular economy’s tenets. To close the loop on organic waste streams and meet resource efficiency targets, anaerobic digestion facilities, biogas upgrading plants, and integrated waste management systems are essential.
  • Energy Security and Diversification By lowering dependency on imported fossil fuels and broadening the energy mix, biomethane improves energy security. Biomethane is a domestically produced renewable energy source that reduces the geopolitical risks associated with the importation of fossil fuels while promoting energy independence, resilience, and local economic development.
  • Waste Management Solutions By keeping organic waste out of landfills and incinerators, biomethane production helps with efficient waste management. Methane emissions and environmental pollutants are decreased via anaerobic digestion and biogas upgrading technologies, which turn organic waste streams, sewage sludge, agricultural residues, and food waste into clean, sustainable biomethane.
  • Decentralized Energy Production Especially in rural and agricultural areas with an abundance of biomass resources, biomethane presents prospects for dispersed generation and decentralized energy production. Local businesses, farms, and communities can use decentralized biomethane production facilities, community digesters, and small-scale biogas plants to produce renewable energy from organic waste sources.
  • Carbon Neutrality and Net-Zero Emissions Objectives By replacing fossil fuels in the production of heat, power, transportation, and industrial operations, biomethane is essential to reaching carbon neutrality and net-zero emissions targets. Biomethane is a low-carbon fuel that is carbon neutral, which helps to lower greenhouse gas emissions and lessen the effects of climate change in a variety of industries.
  • Transportation Fuel and Vehicle Fleet Decarbonization Compressed natural gas (CNG) and liquefied natural gas (LNG) cars, buses, trucks, and ships are using biomethane more and more as a sustainable transportation fuel. When compared to traditional diesel and gasoline vehicles, biomethane-powered vehicles offer significant emissions savings, which helps the transportation sector’s fleet decarbonization initiatives.
  • Energy Transition in Agriculture By valuing organic waste streams and agricultural residues, biomethane production offers farmers, livestock producers, and other agricultural stakeholders opportunities for economic diversification. Farmers are able to increase farm sustainability, lower methane emissions from managing manure, and create new revenue streams with the use of anaerobic digestion systems and biogas upgrading technologies.
  • Technological Innovation and breakthroughs Continuous research projects, process innovations, and technological breakthroughs promote cost savings, scalability, and increased efficiency in the production and use of biomethane. Technological advancements in gas upgrading, membrane separation, anaerobic digestion, and biogas purification have improved the economics and sustainability of biomethane as a renewable energy source.

Global Biomethane Market Restraints

Several factors can act as restraints or challenges for the Biomethane Market. These may include

  • High Initial Investment Costs The infrastructure, machinery, and technology needed for biomethane production facilities, such as anaerobic digestion plants and biogas upgrading systems, require a significant upfront investment. High capital expenditures, particularly in areas with low financial resources or finance access, may discourage potential investors and restrict the growth of biomethane projects.
  • Complicated Regulatory and Permitting Procedures At the municipal, state, and federal levels, biomethane projects must adhere to a number of intricate regulatory regulations, permitting procedures, and compliance standards. Difficulties with getting permissions, navigating regulatory frameworks, and making sure environmental standards are followed can cause delays in project development and add to administrative workloads.
  • Limited Availability of Feedstock The generation of biomethane is dependent on the availability of organic feedstocks, which include energy crops, sewage sludge, organic waste, and agricultural residues. Seasonality, logistics, feedstock quality, and availability can all be major obstacles to obtaining biomass, which can have an impact on supply chain stability and biomethane production rates.
  • Technical and Operational Difficulties The production of biomethane entails a number of technical and operational difficulties pertaining to feedstock pretreatment, process optimization, variable composition of biogas, and purification of biogas. Equipment breakdowns, inefficient processes, and technical issues can all have an effect on a plant’s output, profitability, and overall performance.
  • Fossil Fuel Competition In the energy markets, biomethane is up against traditional fossil fuels like gasoline, diesel, and natural gas. The competitiveness of biomethane as a renewable energy source may be impacted by price volatility, shifting energy prices, and subsidies for the fossil fuel industry, especially in areas with plentiful fossil fuel reserves.
  • Infrastructure Restrictions In certain areas, the pipeline networks, refueling stations, and storage facilities that make up the infrastructure for the transport of biomethane may be underdeveloped or limited. Inadequate infrastructure limits market access and biomethane adoption in the transportation and industrial sectors by impeding its distribution, storage, and transportation.
  • Grid Injection and Market Access The injection of biomethane into natural gas pipelines necessitates regulatory approval, market access agreements with gas utilities, and compatibility with the current gas grid infrastructure. Integration and commercialization of the biomethane market may be hampered by issues with grid connection, injection tariffs, grid capacity limitations, and market entrance obstacles.
  • Economic Viability and Cost Competitiveness A number of variables, including feedstock costs, energy prices, governmental support mechanisms, and income streams from energy sales or renewable energy credits, affect how profitable biomethane plants can be. The cost-competitiveness and profitability of biomethane production may be impacted by changes in renewable energy policy, commodities market fluctuations, and subsidy programs.
  • Perception and Public acceptability Depending on cultural, socioeconomic, and environmental conditions, there may be differences in the public’s perception, awareness, and acceptability of biomethane as a renewable energy source. Local communities, stakeholders, and environmental groups may oppose biomethane facilities because to concerns about odor, visual impact, land usage, and environmental effects.
  • Market Volatility and Uncertainty Trends in the energy sector, policy shifts, regulatory uncertainty, and geopolitical events are some of the variables that impact the dynamics of the biomethane market. In the biomethane industry, investor confidence, project financing, and long-term investment decisions may be impacted by market volatility, uncertainty, and risk concerns.

Global Biomethane Market Segmentation Analysis

The Biomethane Market is segmented on the basis of Type of Feedstock, Technology of Production, End-Use, And Geography.

By Type of Feedstock

  • Organic Waste Biomethane generated from organic waste streams, including food waste, sewage sludge, agricultural leftovers, and organic byproducts from industrial processes, is referred to as organic waste.
  • Energy Crops Biomethane produced from special energy crops developed for the production of bioenergy, such as maize, corn, sugarcane, wheat, barley, and perennial grasses.
  • Livestock Manure Anaerobic digestion or biogas production processes that produce methane from animal manure, such as those from cattle, pigs, poultry, and dairy products.

By Technology of Production

  • Anaerobic Digestion The method of producing biomethane by breaking down organic feedstocks in controlled biogas reactors without oxygen. The result is biogas, which is then upgraded to biomethane by purification procedures.
  • Biogas upgrading The process of producing biomethane from biogas by using techniques like chemical absorption, membrane separation, water scrubbing, pressure swing adsorption (PSA), cryogenic distillation, and water scrubbing to remove contaminants and raise the methane concentration.

By End-Use

  • Transportation Fuel Compressed natural gas (CNG), liquefied natural gas (LNG), and biomethane-powered buses, trucks, taxis, and fleet vehicles can all run on biomethane as a renewable fuel.
  • Natural Gas Grid Injection Biomethane is pumped into natural gas pipes and delivered through the current gas grid infrastructure for use in power production, home and commercial uses, industrial processes, and heating.
  • Combined Heat and Power (CHP) The simultaneous production of heat and electricity from biomethane in cogeneration systems, district heating networks, and industrial applications.
  • Direct Use In domestic, commercial, and industrial contexts, biomethane is used directly as a renewable energy source for cooking, heating, hot water production, and other thermal energy uses.

By Geography

  • North America
  • Asia-Pacific
  • Latin America
  • Middle East & Africa
  • Europe

Key Players

The major players in the Biomethane Market are

  • Engie (France)
  • SUEZ (France)
  • Enertech (Canada)
  • Future Biogas (UK)
  • EnviTec Biogas AG (Germany)
  • Verbio Vereinigte BioEnergie AG (Germany)
  • Waste Management, Inc. (US)
  • Gazprom (Russia)
  • Royal Dutch Shell plc (Netherlands)
  • Veolia Environnement (France)

Report Scope

REPORT ATTRIBUTESDETAILS
STUDY PERIOD

2020-2030

BASE YEAR

2023

FORECAST PERIOD

2024-2030

HISTORICAL PERIOD

2020-2022

UNIT

Value (USD Billion)

KEY COMPANIES PROFILED

Engie (France), SUEZ (France), Enertech (Canada), Future Biogas (UK), EnviTec Biogas AG (Germany), Verbio Vereinigte BioEnergie AG (Germany), Waste Management, Inc. (US), Gazprom (Russia), Royal Dutch Shell plc (Netherlands), Veolia Environnement (France)

SEGMENTS COVERED

Type of Feedstock, Technology of Production, End-Use, And Geography.

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