Briquetting Machine Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Type (Screw Briquetting Machines, Hydraulic Briquetting Machines, Mechanical Briquetting Machines, Roller Press Briquetting Machines), By Material (Biomass, Charcoal, Coal, Metal Chips, Others), By End-Use (Agriculture, Metallurgy & Mining, Energy & Power, Manufacturing, Others), By Region, and By Competition, 2020-2030F

Market Overview

The Global Briquetting Machine Market was valued at USD 1.13 Billion in 2024 and is expected to reach USD 1.75 Billion by 2030 with a CAGR of 7.43% during the forecast period.

The global briquetting machine market is experiencing steady growth, driven by the increasing need for efficient waste management and the rising demand for renewable energy solutions. Briquetting machines, which compress waste materials such as biomass, wood, metal, and other residues into compact, reusable briquettes, are gaining traction across industries for their ability to reduce transportation costs, enhance fuel efficiency, and support sustainable practices. The surge in global energy consumption, coupled with growing environmental concerns, has prompted governments and industries to adopt eco-friendly technologies. This has significantly boosted the adoption of biomass and coal briquetting machines, particularly in emerging economies like India, China, and several African nations, where agricultural and forestry waste is abundant and often underutilized.

Technological advancements in briquetting systems, such as the integration of automation, hydraulic power, and improved press designs, have further enhanced machine efficiency and output quality. These innovations are enabling manufacturers to cater to diverse end-user industries, including agriculture, metallurgy, energy, recycling, and chemical processing. The market is also witnessing an increasing demand for customized solutions, as end-users seek machines that can handle specific feedstocks and offer consistent briquette quality. In addition, the rise in carbon credit programs and government subsidies for renewable energy projects is encouraging small and medium enterprises to invest in briquetting machines as a viable alternative to fossil fuels.

Key players in the market include RUF Maschinenbau GmbH, WEIMA Maschinenbau GmbH, C.F. Nielsen, Komarek Inc., Jay Khodiyar Machine Tools, and Maxton Industrial Co., among others. These companies are actively investing in research and development, strategic partnerships, and expansion into new geographies to strengthen their market presence. As environmental regulations tighten and industries continue to pursue energy efficiency, the global briquetting machine market is poised for continued growth, offering opportunities for innovation, regional expansion, and cross-sector collaboration.

Key Market Drivers

Push for Renewable Energy and Carbon Emission Reduction

One of the key drivers for the global briquetting machine market is the global shift toward renewable energy and reducing carbon emissions. Biomass briquettes are a cleaner alternative to coal and fossil fuels, emitting significantly lower greenhouse gases. For instance, burning biomass briquettes can reduce CO₂ emissions by up to 50% compared to coal combustion. Additionally, over 1 billion tons of agricultural waste is produced globally every year, offering vast raw material availability for briquetting. In developing countries, more than 70% of rural energy consumption still depends on traditional biomass, highlighting the opportunity for clean fuel conversion. Biomass briquettes have a calorific value ranging between 3,800 to 4,800 kcal/kg, making them efficient for industrial heating applications. In European industrial operations, briquette use has contributed to reducing particulate matter emissions by 30–40%. With governments enforcing stricter emission standards, industries are adopting briquetting solutions to comply with sustainability mandates. Furthermore, some nations offer carbon credits of up to USD10–15 per ton of CO₂ offset, encouraging biomass briquette production and use.

Economic and Operational Efficiency

Briquetting machines enable industries to convert waste into value-added fuel, significantly reducing costs. Compared to coal, biomass briquettes can be 30–40% cheaper in terms of per-unit heating value. The average bulk density of briquettes is about 900–1,200 kg/m³, reducing transportation and storage costs by more than 60% compared to loose waste. Industries using briquetting solutions have reported fuel cost savings of 20–25%, with some boiler systems experiencing up to 50% lower fuel expenses over time. Furthermore, briquetting minimizes waste disposal costs; landfill tipping fees in some regions exceed USD50 per ton, which can be avoided through onsite briquette production. The lifespan of modern briquetting machines ranges from 8 to 15 years, offering a long-term return on investment. Additionally, integrated automation reduces labor costs by 10–20% and enhances productivity by up to 25%. This strong cost-benefit ratio makes briquetting machines an economically attractive solution across industries such as food processing, packaging, mining, and metal recycling.

Surplus Availability of Biomass and Industrial Waste

The abundance of organic and industrial waste worldwide is fueling the growth of briquetting machines. Globally, over 1 billion tons of agricultural residues are generated annually, including rice husks, straw, sugarcane bagasse, and wheat stalks. In India alone, more than 500 million tons of crop residues are produced each year. Similarly, global wood industry operations generate over 300 million tons of sawdust and wood chips annually, suitable for densification. In metalworking industries, up to 15% of raw material is lost as shavings and swarf, which can be briquetted into high-value metal blocks for recycling. Municipal solid waste (MSW) is another growing feedstock, with the average city producing 0.74 kg per person per day, most of which is combustible. Briquetting helps convert these waste streams into clean energy sources, supporting zero-waste goals. Biomass briquettes can be used as fuel for boilers, kilns, and gasifiers, replacing wood and coal in over 50% of rural industries in parts of Africa and Asia. This availability of diverse raw materials is a critical enabler for briquetting machine adoption.

Government Support and Incentive Programs

Government policies supporting waste-to-energy conversion and clean fuel alternatives have significantly boosted the briquetting machine market. Several countries offer capital subsidies of 15–35% for the installation of briquetting units. In India, briquetting plants are eligible for accelerated depreciation benefits of up to 80% in the first year, allowing investors to recover costs faster. Feed-in tariffs and carbon offset programs in European countries provide income of euro10–20 per ton of briquettes used in energy generation. Additionally, some governments provide soft loans with interest rates as low as 4–6% for renewable energy equipment. In regions like Southeast Asia, tax holidays of 3 to 5 years are offered to biomass equipment manufacturers. Certain African nations, through rural development programs, distribute briquetting machines to community cooperatives, supporting local energy generation. These programs not only lower upfront capital expenditure but also improve return on investment for businesses shifting toward biomass briquetting.

Technological Advancements in Machinery

Advancements in briquetting technology have significantly improved machine efficiency, reliability, and user adaptability. Modern briquetting machines offer energy savings of up to 15–20% compared to older models, thanks to better drive systems and control software. Hydraulic and mechanical briquetters now achieve pressures exceeding 3,000 psi, allowing for denser and more durable briquettes. Automated feeding and PLC-based control systems can enhance production throughput by 20–30% while reducing manual labor. Some machines now support multi-feedstock processing, capable of handling 5–7 different input types, including biomass, paper, plastic, and metal. Furthermore, smart diagnostics systems have been integrated to reduce maintenance downtime by 15–25%. Dust collection systems incorporated into machines lower air pollution in industrial settings by up to 70%. These innovations are making briquetting machines more viable across sectors such as energy, agriculture, construction, and manufacturing, thereby expanding their market appeal and adoption globally.

Download Free Sample Report

Key Market Challenges

High Initial Capital Investment and Operating Costs

Despite long-term cost savings, one of the biggest barriers to adoption of briquetting machines is the high upfront investment required. Industrial-grade briquetting machines can cost anywhere from USD20,000 to over USD200,000 depending on size, output capacity, and technology. For small and medium enterprises (SMEs), particularly in developing countries, this represents a significant financial burden. In addition to equipment costs, setting up briquetting plants involves expenditures on land, raw material handling, drying systems, labor, power supply, and maintenance infrastructure. Operational costs can also be high, especially for machines requiring consistent power inputs or those using hydraulic systems, which have greater energy consumption. In areas with unreliable electricity or high utility costs, maintaining continuous operation becomes difficult. Furthermore, regular maintenance of moving components, replacement of dies and rollers, and periodic machine downtime add to ongoing expenses. While government subsidies and incentives help, access to financing remains a major hurdle for businesses in rural or underdeveloped regions. As a result, the total cost of ownership remains a significant challenge, slowing widespread market penetration—especially in cost-sensitive economies.

Inconsistent Raw Material Quality and Availability

Briquetting machines require a steady supply of consistent-quality raw material to operate efficiently. However, in many regions, the availability and quality of biomass or other feedstocks can vary widely depending on seasonality, agricultural cycles, and local collection infrastructure. For example, moisture content above 12–15% can drastically reduce briquette density and increase energy consumption. Inadequate drying facilities often lead to improperly conditioned materials, resulting in poor briquette formation or machine blockages. Additionally, impurities like sand, stones, or metal fragments in the feedstock can damage pressing components and increase machine wear. In urban environments, segregating combustible materials from municipal solid waste remains a challenge due to the lack of organized waste collection systems. In rural areas, although agricultural residues are plentiful, much of the material is used for other purposes such as cattle feed, bedding, or as direct combustion fuel, limiting supply for briquetting. These supply chain inconsistencies can lead to fluctuating production rates, reduced product quality, and increased downtime, deterring users from investing in briquetting machinery.

Limited Awareness and Technical Expertise

Another significant challenge in the global briquetting machine market is the limited awareness of its benefits and a general lack of technical know-how among potential users, especially in rural or emerging markets. Many small and medium enterprises (SMEs) and local communities remain unfamiliar with how briquetting technology can help convert waste into a revenue-generating energy source. In many cases, potential users still rely on traditional biomass burning methods, unaware of the environmental and operational advantages offered by densified briquettes. Furthermore, operating and maintaining briquetting equipment requires a certain level of training. Without proper knowledge, operators may fail to manage feedstock moisture, maintain correct pressure levels, or service the machinery regularly—leading to breakdowns and inefficiencies. In regions where educational or vocational training infrastructure is lacking, this skills gap significantly affects machine performance and user confidence. Moreover, language barriers and limited availability of technical manuals or after-sales support in local languages often discourage adoption. The lack of accessible training programs or skilled technicians for installation and maintenance services further slows down market growth, especially in developing nations.

Competition from Alternative Technologies and Fuels

Briquetting technology competes with several other waste-to-energy and solid fuel alternatives, which can limit its market penetration. For instance, pelletizing—especially in developed economies—has gained popularity due to standardized shapes and compatibility with automated boiler systems. In urban areas, waste incineration plants offer centralized solutions for municipal waste management, reducing the need for localized briquetting systems. Additionally, LPG, natural gas, and electricity remain dominant energy sources in many regions due to their availability, cleanliness, and ease of use. In regions where fossil fuels are heavily subsidized, briquettes struggle to offer a cost advantage, even with environmental benefits. For example, in several oil-producing nations, heavily subsidized diesel or gas prices make the switch to biomass briquettes economically unattractive. Similarly, solar and biogas technologies are gaining ground in off-grid rural markets, reducing the appeal of biomass briquettes as an energy alternative. These competing technologies often benefit from more mature supply chains, better infrastructure, and higher public awareness, making it harder for briquetting to establish a strong foothold, particularly outside its niche industrial use cases.

Lack of Standardization and Product Quality Control

The briquetting machine industry is still fragmented in many parts of the world, with limited standardization across equipment designs, output sizes, and briquette quality. This lack of uniformity affects end-user confidence and market scalability. For instance, briquette shape, density, and durability can vary significantly depending on machine type, feedstock composition, and processing conditions. Inconsistent briquette quality results in irregular combustion rates, excessive ash formation, and poor handling characteristics—making them unsuitable for automated heating systems or export markets with strict quality regulations. Moreover, the absence of widely accepted performance benchmarks makes it difficult for buyers to compare products or ensure compatibility with downstream applications such as boilers or gasifiers. This problem is compounded in developing markets, where low-cost, locally fabricated machines often lack essential safety and performance features. In some cases, inferior machines not only produce substandard briquettes but also suffer frequent breakdowns, leading to customer dissatisfaction. Until global or regional standards for briquetting machines and briquette outputs are adopted and enforced, the lack of quality assurance will remain a challenge, especially for manufacturers seeking to expand into international markets.

Key Market Trends

Growth in Decentralized Briquetting Units and Community Models

There is a noticeable trend toward decentralized briquetting systems, particularly in rural and off-grid regions of Africa, Asia, and Latin America. These smaller-scale units are designed to serve local communities, cooperatives, or clusters of small businesses that collectively process agricultural waste into briquettes for local consumption or sale. Unlike large industrial plants, decentralized models are easier to set up, require lower capital investment, and are more adaptable to regional feedstocks. They empower local economies by creating jobs, reducing dependence on firewood, and providing a sustainable energy alternative. Community-based briquetting centers, often supported by NGOs or government rural development schemes, are becoming hubs for clean energy access. In Uganda and Kenya, for instance, over 1,000 community-based units have been established in the past decade, producing more than 100 tons of briquettes per day collectively. These models often use simplified screw-type or piston-press machines, powered by diesel or solar hybrid systems, to operate in low-infrastructure environments. The decentralized trend aligns with global sustainability goals, supporting circular economies and promoting local ownership of energy systems.

Increasing Focus on Eco-Friendly Binderless Briquetting

A growing emphasis on sustainable and chemical-free production processes is driving demand for binderless briquetting machines. Traditionally, certain briquette types required chemical binders like starch or molasses to maintain structural integrity. However, the current market favors binderless technologies that utilize high pressure and heat to fuse raw materials naturally, especially in biomass applications. These machines minimize emissions and reduce operating costs associated with chemical procurement and storage. Binderless briquettes also offer higher purity and lower ash content, making them more suitable for clean energy applications and international markets where quality regulations are stringent. Technological improvements have enabled manufacturers to achieve high compaction strength without additives, even with low-bulk-density materials like bagasse or groundnut shells. In response, countries such as Germany, Sweden, and India are promoting binderless briquetting under national bioenergy missions. The trend is also growing in the food and pharmaceutical sectors, where product purity is critical. This push for greener, more natural production processes reflects broader ESG (environmental, social, governance) priorities and is expected to redefine product standards in the coming years.

Emergence of Briquetting-as-a-Service Business Models

An innovative trend in the briquetting machine market is the rise of service-based business models, where equipment is not sold outright but provided as part of a leasing, pay-per-use, or contract manufacturing agreement. Briquetting-as-a-Service (BaaS) models help eliminate the need for upfront capital expenditure and allow users to access high-quality equipment and maintenance services on a subscription or output-based payment basis. This model is especially attractive to small enterprises, agro-processors, and cooperatives that lack the financial capacity for direct purchases. Some companies also offer mobile briquetting units that can be transported to different sites, reducing the cost and logistics of transporting bulky raw waste. These services are often bundled with training, feedstock management, and briquette marketing support, creating an end-to-end solution. For example, in Southeast Asia, several private players now operate on a revenue-sharing basis with rural clients, offering briquetting machines and charging a fixed rate per kilogram of output. This trend lowers entry barriers, promotes adoption in untapped regions, and helps manufacturers build long-term client relationships, leading to recurring revenue streams.

Segmental Insights

Type Insights

Screw Briquetting Machines segment dominates in the Global Briquetting Machine market in 2024 due to its superior adaptability, operational efficiency, and suitability for biomass processing, especially in emerging economies. These machines are particularly effective for converting loose, powdery, or low-density biomass—such as sawdust, rice husk, straw, and bagasse—into high-density, cylindrical briquettes without requiring binders. Their ability to handle a wide variety of agro-residues makes them an ideal choice in regions with abundant agricultural waste.

Screw briquetting machines are favored for their continuous operation, lower power consumption, and simplified design, which allows for easier maintenance and operation by semi-skilled labor. Their ability to produce briquettes with hollow centers (which improve combustion efficiency and air circulation) further enhances their appeal for use in household heating and small-scale industrial boilers. These machines are especially popular in Asia-Pacific and Africa, where decentralized and community-based briquetting is gaining momentum.

Moreover, the relatively low capital investment required for screw-type machines makes them highly accessible to micro, small, and medium enterprises (MSMEs). In countries like India, Vietnam, and Kenya, screw briquetting units are used extensively for rural energy supply, replacing firewood and charcoal, thus contributing to deforestation reduction and clean energy access.

Technological advancements have improved the wear resistance of screws and barrels, which previously limited machine life. New materials and surface treatments now allow for longer operational cycles and reduced maintenance costs. Additionally, screw machines offer flexibility in output size and moisture tolerance, often accommodating biomass with moisture content up to 12–15%.

Finally, government support programs—offering subsidies, training, and carbon credits—have particularly favored screw briquetting units due to their simplicity and suitability for small-scale deployment. These combined factors explain why the screw briquetting machine segment continues to lead the global market in 2024.

Material Insights

Biomass segment dominated the Global Briquetting Machine market in 2024 due to the widespread availability of agricultural residues, wood waste, and forestry byproducts. Rising demand for renewable energy, especially in rural and off-grid areas, has driven the use of biomass briquettes as a cleaner alternative to coal and firewood. Government incentives, carbon credit programs, and increasing adoption of biomass in industrial boilers further boosted demand. Additionally, biomass briquetting machines are cost-effective, eco-friendly, and suitable for decentralized applications, making them the preferred choice across Asia-Pacific, Africa, and parts of Latin America where biomass resources are abundant and underutilized.

Download Free Sample Report

Regional Insights

Largest Region

North America dominates the Global Briquetting Machine market in 2024 due to its strong industrial base, advanced waste management infrastructure, and growing emphasis on sustainable energy practices. The region’s mature manufacturing and recycling sectors—especially in the United States and Canada—have significantly driven the demand for briquetting solutions to manage biomass, metal chips, and industrial waste efficiently. Industries such as automotive, aerospace, and metal fabrication are increasingly utilizing briquetting machines to compress metal shavings and swarf for recycling, enhancing material recovery and reducing disposal costs.

One of the major factors contributing to North America's dominance is its well-established biomass supply chain. The region produces vast quantities of agricultural and forestry waste, including sawdust, wood chips, and corn stalks, all of which are ideal feedstocks for briquetting. Additionally, with a strong focus on reducing carbon emissions and promoting clean energy, both government and private sectors are investing heavily in biomass-based renewable energy, where briquettes are used as a fuel substitute in boilers and power plants.

Government support has further strengthened the market. In the U.S., policies under the Renewable Energy Program and Environmental Protection Agency (EPA) regulations are encouraging industries to adopt cleaner fuel technologies, including briquetting. Tax credits, grants, and R&D funding for clean technology development have incentivized the use of briquetting systems across multiple sectors.

Technological advancements and higher adoption of automation also play a critical role. North American manufacturers favor high-capacity, automated briquetting machines with PLC controls, remote diagnostics, and predictive maintenance features. This enables greater operational efficiency and productivity. Moreover, North America’s emphasis on circular economy practices and zero-waste manufacturing has made briquetting an integral part of industrial waste reduction strategies.

These factors—alongside a high awareness of environmental regulations, advanced technologies, and robust industrial demand—position North America as the leading region in the global briquetting machine market in 2024.

Emerging Region

Europe is the emerging region in the Global Briquetting Machine market in the coming period due to its stringent environmental regulations, strong focus on renewable energy, and well-established recycling infrastructure. Countries like Germany, Sweden, and Austria are promoting biomass utilization and circular economy models, encouraging industries to adopt briquetting for waste reduction and clean energy generation. The EU’s Green Deal and carbon neutrality goals are driving demand for sustainable fuel alternatives, including biomass briquettes. Additionally, advancements in briquetting technology and government subsidies for clean energy projects are enabling wider adoption across industrial, agricultural, and residential sectors throughout the European region.

Recent Developments

• In July 2025, TRE Holdings Corporation and Mitsubishi Gas Chemical Company, Inc. have signed an MoU to jointly assess the feasibility of producing green methanol using woody biomass and waste materials in Japan. The study focuses on a proposed facility in Chiba Prefecture and represents a strategic initiative to harness domestic forest resources for low-carbon fuel and chemical production. This collaboration aligns with Japan’s decarbonization goals and highlights the potential of bio-based methanol in sustainable industrial applications.
• In November 2024, Unilever and global agricultural innovator Nufarm have partnered to develop a next-generation biomass crop capable of producing sustainable oils from the entire plant, including leaves and stems. Crops like sorghum and cane are being explored to replace traditional oil sources such as sunflower and canola. The resulting biomass-derived fatty acids will serve as key ingredients in Unilever’s laundry and personal care products, marking a significant step toward more sustainable, high-yield feedstocks in consumer goods manufacturing.
• In June 2024, New Energy Blue has partnered with ARCO/Murray to construct the New Energy Freedom biomass refinery in Mason City, Iowa, under a USD650 million contract. The facility will convert corn stalks into low-carbon ethanol and clean lignin at commercial scale. Following completed engineering, permitting, and field trials, the project entered its final investment decision phase in 2024. Construction is set to begin later this year, with commercial operations targeted for 2026, advancing sustainable fuel production in the U.S. Midwest.
• In September 2024, Vale and Midrex Technologies have entered into a Technical Cooperation Agreement to advance the application of iron ore briquettes in direct reduction steelmaking. Building on prior joint research, the collaboration focuses on Vale’s proprietary low-temperature briquetting technology, which produces mechanically strong agglomerates using advanced binders. The initiative supports the decarbonization of steel production by enabling lower-emission alternatives, reinforcing both companies’ commitment to sustainable innovation within the global iron and steel industry.

Key Market Players

• RUF Maschinenbau GmbH & Co. KG         
• WEIMA Maschinenbau GmbH
• C.F. Nielsen A/S
• Komarek Inc.
• Felder Group
• Briquetting Systems Inc.
• Prodeco S.r.l.
• Jay Khodiyar Machine Tools
• Radhe Industrial Corporation
• Maxton Industrial Co., Ltd.               

Report Scope:

In this report, the Global Briquetting Machine Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

•  Briquetting Machine Market, By Type:

o   Screw Briquetting Machines

o   Hydraulic Briquetting Machines

o   Mechanical Briquetting Machines

o   Roller Press Briquetting Machines

• Briquetting Machine Market, By Material:

o   Biomass

o   Charcoal

o   Coal

o   Metal Chips

o   Others

• Briquetting Machine Market, By End-Use:

o   Agriculture

o   Metallurgy & Mining

o   Energy & Power

o   Manufacturing

o   Others

• Briquetting Machine Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  Germany

§  France

§  United Kingdom

§  Italy

§  Spain

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Asia-Pacific

§  China

§  India

§  Japan

§  South Korea

§  Australia

o   Middle East & Africa

§  Saudi Arabia

§  UAE

§  South Africa

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Global Briquetting Machine Market.

Available Customizations:

Global Briquetting Machine Market report with the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report:

Company Information

• Detailed analysis and profiling of additional market players (up to five).

Global Briquetting Machine Market is an upcoming report to be released soon. If you wish an early delivery of this report or want to confirm the date of release, please contact us at [email protected]