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This is a customer`s on-site work video of using rice husk to make pellets. The customer's raw material is rice husk, using Yulong brand XGJ560 granulator, with an output of 1.5-2 tons per hour.

U.S. manufacturers produced approximately 880,000 tons of densified biomass fuels in December, according to the March edition of the U.S. Energy Information Administration`s Monthly Densified Biomass Fuels Report. Sales of densified biomass fuel reached 960,000 tons during the month. The EIA collected data from 76 operating manufacturers of densified biomass fuel to complete the report. The report does not include data on facilities with annual production capacities of less than 10,000 tons, which report data annually rather than monthly. The 76 manufacturers surveyed for December had a total combined production capacity of 12.96 million tons per year and collectively had the equivalent of 2,467 full-time employees. Respondents purchased 1.79 million tons of raw biomass feedstock in December, produced 880,000 tons of densified biomass fuel and sold 960,000 tons of densified biomass fuel. Production included 138,810 tons of heating pellets and 750,597 tons of utility pellets. Domestic sales of densified biomass fuel in December reached 147,605 tons at an average price of $221.71 per ton. Exports in December reached 813,995 tons at an average price of $184.18 per ton. Inventories of premium/standard pellets expanded to 1190,268 tons in December, up from 183,314 tons in November. Inventories of utility pellets fell to 428,085 tons in December, down from 555,666 tons in November. Data gathered by the EIA shows that total U.S. densified biomass fuel capacity reached 13.05 million tons in December, with all of that capacity listed as currently operating or temporarily not in operation. Capacity included 1.97 million tons in the East, 10.28 million tons in the South, and 794,200 tons in the West.

Agricultural waste management is a growing concern as the world faces increasing pressure to find sustainable and environmentally friendly solutions. Biomass pellet machines have emerged as a crucial tool in mitigating this challenge. From converting crop residues into valuable biomass pellets to reducing greenhouse gas emissions and providing renewable energy sources, these machines play a vital role in sustainable farming practices. Let's delve into the benefits and applications of biomass pellet machines in agricultural waste management. Conversion of Crop Residues After harvest, agricultural fields are often left with a significant amount of crop residues, such as stalks, husks, and straws. Biomass pellet machines can efficiently process these residues into compact pellets that can be used as biofuel or animal feed. By converting crop residues into biomass pellets, farmers can reduce waste, utilize resources effectively, and contribute to a cleaner environment. Reducing Greenhouse Gas Emissions Agricultural waste, if left unmanaged, can release methane gas, a potent greenhouse gas, during decomposition. Biomass pellet machines offer a sustainable solution by transforming agricultural waste into biomass pellets, which can then be used as a renewable energy source. This process helps reduce the emission of greenhouse gases into the atmosphere, making a positive impact on climate change mitigation. Generating Renewable Energy Biomass pellets produced by biomass pellet machines can serve as a valuable source of renewable energy. These pellets can be used in specialized biomass boilers or stoves to generate heat and electricity. By utilizing agricultural waste as a renewable energy source, farmers and communities can reduce their reliance on fossil fuels, contribute to energy independence, and promote a cleaner and more sustainable future. Improving Soil Health Agricultural waste, when left untreated, can negatively impact soil health and fertility. Biomass pellet machines aid in agricultural waste management by converting residues into nutrient-rich pellets. These pellets can be used as organic fertilizers, effectively recycling valuable nutrients back into the soil. By improving soil health, farmers can enhance crop productivity, reduce the need for synthetic fertilizers, and promote sustainable farming practices. Creating Economic Opportunities Biomass pellet machines not only contribute to agricultural waste management but also create economic opportunities. Farmers can generate additional income by selling biomass pellets to industries and households in need of renewable energy sources. Additionally, the production and distribution of biomass pellets can create employment opportunities in rural areas, stimulating local economies and fostering sustainable development. Conclusion: Biomass pellet machines serve as a key component of agricultural waste management, providing solutions that benefit both farmers and the environment. By converting crop residues into biomass pellets, these machines help reduce waste, lower greenhouse gas emissions, generate renewable energy, improve soil health, and create economic opportunities. Embracing biomass pellet machines in agricultural practices not only promotes sustainable farming but also contributes to the global efforts in mitigating climate change and achieving a cleaner and more sustainable future.

In recent years, the demand for renewable energy has been on the rise, leading to a significant growth in the biomass energy sector. Ring die pellet machines have emerged as a crucial component in biomass fuel production. These efficient machines play a vital role in transforming various biomass materials into compressed pellets that serve as a renewable energy source. Ring die pellet machines play an important role in the biomass energy sector; so let`s check their working principles, and the benefits they bring to the industry and the environment. Introduction to Ring Die Pellet Machines Ring die pellet machines are specialized equipment designed to produce biomass pellets. Unlike flat die pellet machines, ring die pellet machines feature a rotating roller and a stationary die with multiple holes through which the biomass material is compacted. This unique design allows for higher pressure and density in the pelletizing process, resulting in more durable and efficient pellets. Efficient Biomass Pellet Production One of the main contributions of ring die pellet machines in the biomass energy sector is their ability to produce pellets efficiently. The high-pressure environment created by the rotating roller and stationary die ensures optimal compression and binding of the biomass materials, resulting in pellets with consistent size, density, and energy content. This efficiency in pellet production allows for a more reliable and cost-effective source of biomass fuel. Advantages of Ring Die Pellet Machines Ring die pellet machines offer several advantages that make them essential in the biomass energy sector. Firstly, they can process a wide range of biomass materials such as wood chips, sawdust, agricultural residues, and even grasses, allowing for versatile feedstock options. Additionally, ring die pellet machines can handle high volumes of biomass, making them suitable for large-scale production. Their ability to produce dense and uniform pellets enhances combustion efficiency, reducing emissions and improving energy output. Sustainability and Environmental Benefits The use of ring die pellet machines in the biomass energy sector contributes significantly to sustainability and environmental preservation. By utilizing biomass materials for fuel production, the reliance on fossil fuels is reduced, leading to a decrease in greenhouse gas emissions and harmful pollutants. Furthermore, biomass pellets produced with ring die pellet machines are a carbon-neutral energy source, as the carbon dioxide released during combustion is offset by the carbon absorbed during plant growth, promoting a more sustainable energy system. Role in Economic Development The adoption of ring die pellet machines also plays a significant role in economic development. The biomass energy sector not only creates employment opportunities in pellet production but also fosters local economies by utilizing locally available biomass resources. Additionally, the production and distribution of biomass pellets contribute to energy independence, reducing reliance on imported fossil fuels and providing a reliable and affordable alternative. Conclusion: Ring die pellet machines play a pivotal role in the biomass energy sector, enabling the efficient production of high-quality biomass pellets. These machines offer advantages such as versatility, high production capacity, and environmental sustainability. By utilizing ring die pellet machines, the biomass energy sector can contribute to a cleaner, more sustainable energy system, reducing reliance on fossil fuels, lowering emissions, and promoting economic development. Embracing the role of ring die pellet machines is crucial as we strive for a greener and more sustainable future.

Wood pellet production lines have revolutionized the utilization of wood waste by transforming it into valuable and renewable energy sources. These production lines have become increasingly popular in the biomass energy sector due to their efficiency and sustainability. Here, we explore the steps involved in converting wood waste into high-quality pellets. From raw material preparation to pelletization and packaging, we will highlight the key stages and technologies used in wood pellet production lines. Raw Material Preparation The first crucial step in wood pellet production lines is raw material preparation. Wood waste materials such as sawdust, wood chips, and shavings are collected and sorted. Any contaminants, such as stones or metal particles, are removed to ensure the quality of the final product. The wood waste is then finely crushed or chipped to a consistent size and moisture content, optimizing the pelletization process. Drying and Conditioning The next stage is drying and conditioning the wood waste. Moisture content plays a vital role in pellet production, as excessive moisture can result in poor pellet quality and increased energy consumption. Wood waste with high moisture content is typically dried in specialized drying equipment, reducing moisture levels to the ideal range. Conditioning follows the drying process, which involves adjusting the moisture content further to ensure consistent and optimal pellet formation. Pelletization Pelletization is the heart of wood pellet production lines. In this stage, the prepared and conditioned wood waste is fed into a pellet mill. The pellet mill incorporates a ring die and rollers, which compress the wood waste through holes in the die. The high pressure and heat generated during this process cause the lignin in the wood waste to soften and bind the particles together, forming cylindrical wood pellets. The pellets are cut to the desired length and cooled as they exit the pellet mill. Cooling and Screening After pelletization, the freshly formed wood pellets go through a cooling process to reduce their temperature and moisture content. This step is crucial in preventing degradation and ensuring the pellets' structural integrity. The cooled pellets are then screened to remove any fines or irregularly shaped pellets, ensuring consistent quality and size distribution. Packaging and Storage The final stage in wood pellet production lines is packaging and storage. The pellets are typically packaged in bags or loaded into bulk storage containers, ready for distribution and sale. Proper packaging ensures protection against moisture and contaminants, preserving the quality of the pellets. The packaged pellets are stored in a dry and well-ventilated area to maintain their integrity until they are ready for use as a valuable renewable energy source. Conclusion: Wood pellet production lines play a pivotal role in transforming wood waste into valuable and renewable energy sources. By following a carefully designed process, from raw material preparation to pelletization, cooling, and packaging, these production lines ensure the efficient and sustainable utilization of wood waste. Wood pellets produced through this process have numerous applications, including residential heating, industrial processes, and power generation. Embracing wood pellet production lines not only contributes to a cleaner and more sustainable energy system but also addresses the challenge of wood waste disposal while promoting resource efficiency.

This production line includes Yulong brand wood hammer mill, biomass pellet machines, pellet coolers and auxiliary conveying equipment. If you want to know more information about them please contact us in time. WhatsApp:+86-15662799469 Email: inquiry@yljx168.com

This production line was purchased by a Chilean customer from Yulong Company. Output per hour is 1.5-2T These include drum screens, wood pellet machines, pellet coolers, pellet packaging machines, and belt conveyors.

By biomassmagazine SOURCE: U.S. Energy Information Administration U.S. manufacturers produced approximately 930,000 tons of densified biomass fuels in August, according to the November edition of the U.S. Energy Information Administration`s Monthly Densified Biomass Fuels Report. Sales of densified biomass reached 1.06 million tons during the month. The EIA collected data from 76 operating manufacturers of densified biomass fuel to complete the report. The report does not include data on facilities with annual production capacities of less than 10,000 tons, which report data annually rather than monthly. The 76 manufacturers surveyed for August had a total combined production capacity of 12.6 million tons per year and collectively had the equivalent of 2,504 full-time employees. Respondents purchased 910,000 tons of raw biomass feedstock in August, produced 930,000 tons of densified biomass fuel and sold 1.06 million tons of densified biomass fuel. Production included 163,971 tons of heating pellets and 766,203 tons of utility pellets. Domestic sales of densified biomass fuel in August reached 188,057 tons at an average price of $224.00 per ton. Exports in August reached 874,384 tons at an average price of $194.63 per ton. Inventories of premium/standard pellets fell to 253,748 tons in August, down from 264,517 tons in July. Inventories of utility pellets expanded to 474,202 tons in August, up from 461,956 tons in July. Data gathered by the EIA shows that total U.S. densified biomass fuel capacity reached 12.69 million tons in August, with all of that capacity listed as currently operating or temporarily not in operation. Capacity included 1.81 million tons in the East, 10.25 million tons in the South, and 632,450 tons in the West.

by calgarysun With the Alberta government`s stamp of approval, a $1.2-billion negative-emissions biofuels plant on southeast Calgary`s edge is officially allowed to begin construction. And while the project has flown relatively under the radar and comes with high up-front costs, one expert says various Canadian regulations targeting emissions will help make it economically viable. The project, slated to open in 2026, is expected to approximately triple the amount of renewable natural gas (RNG) on Canada`s grid, though still making up less than a per cent of all natural gas production. Future Energy Park will use non-grade food waste to produce RNG that`s fed directly into a nearby natural gas mainline. It will also produce ethanol and methane-reducing cattle feed. [It`s ready to get built and certainly has a massive impact on the local economy and the local supply chain," Jesse Douglas, CEO of Green Impact Partners, a publicly traded clean energy company, said in an interview with Postmedia. The project has been largely privately funded. GIP announced Monday it had received approval from Alberta`s Ministry of Environment and Protected Areas, the final regulatory hurdle it`s needed to clear over the past two years. The 21-hectare property is expected to create 800 jobs over two years of construction and about 100 jobs during operations. It`s also expected to add $50 million annually to city coffers and provide $150 million in yearly revenue to rural wheat producers. Biofuel plants post remarkably low emissions by creating energy from waste products such as manure and wastewater. They trap gases including methane and carbon dioxide, which can be processed into natural gas or used as fuel for heating, electricity and transportation. By trapping those gases that would otherwise be released, GIP says the Future Energy Park will be North America`s largest carbon-negative biofuels facility. Douglas said its carbon intensity score will be negative-20. [By putting (waste products) into a process where those emissions no longer escaping into the atmosphere, we are removing those methane emissions that would otherwise end up there," he said. Methane emissions, which are more than 80 per cent more potent than carbon dioxide during its 20-year life, are required to drop 75 per cent below 2012 levels by 2030 if draft regulations released last week are cemented. Industrial-sector carbon tax makes biofuel facilities viable: expert Biofuel plants are also expensive to build - and the cost of producing RNG is significantly higher than normal methods. Producing natural gas costs about $3 to $4 per Metric Million British thermal units (MMBtu), whereas it`s around $30 per MMBtu for RNG.

by english.news. BEIJING, Dec. 15 (Xinhua) -- Chinese Vice Premier Ding Xuexiang on Friday called for enhanced high-quality energy cooperation with Russia at the 20th meeting of the China-Russia Energy Cooperation Committee. Ding, also a member of the Standing Committee of the Political Bureau of the Communist Party of China Central Committee, made the remarks when co-chairing the meeting with Russian Deputy Prime Minister Alexander Novak in Beijing. Under the strategic guidance of the heads of state of the two countries, bilateral energy cooperation has formed an all-round, wide-ranging and high-level cooperation pattern, creating a model of equal and mutually beneficial practical cooperation between China and Russia, Ding said. China is ready to work with Russia to implement the important consensus reached by the two heads of state, build a high-level energy cooperation partnership, continuously enhance the resilience of the energy industrial and supply chains, promote high-quality development of energy cooperation with Russia, and promote the development of China-Russia comprehensive strategic partnership of coordination in a new era, he said. Ding called on the two sides to consolidate energy trade and mutually beneficial cooperation, promote the construction and stable operation of oil and gas projects, and build nuclear energy projects with high standards and high quality. The two sides should actively expand new areas and directions of energy cooperation, deepen cooperation on renewable energy, hydrogen energy, energy storage, smart energy and carbon market, and deepen integrated cooperation in the upper, middle and lower reaches of the energy sector, he said. Ding also suggested that the two countries strengthen global energy governance, practice genuine multilateralism, and make greater contributions to the long-term, healthy, stable and sustainable development of the global energy market and the building of a global partnership for clean energy cooperation. For his part, Novak said that Russia is willing to work with China to implement the important consensus reached by the two heads of state, deepen energy cooperation in all aspects, strengthen multilateral coordination, and jointly safeguard the stability of the global energy market and production and supply chains.

2023 YULONG - WOOD PELLET 10-12T/H PRODUCTION LINE | CUSTOMER CASE SUPPLIER & MANUFACTURERS | YULONG

USDA: US Wood Pellet Exports Top 865,995 Metric Tons in June The U.S. exported 865,995.4 metric tons of wood pellets in June, up from both the 820,057.5 metric tons exported the previous month and the 832,092.2 metric tons exported in June 2022, according to data released by the USDA Foreign Agricultural Service on Aug. 8. The U.S. exported wood pellets to approximately 16 countries in June. The U.K. was the top destination for U.S. wood pellet exports at 494,421.4 metric tons, followed by Japan at 150,281.2 metric tons and Denmark at 102,771.8 metric tons. The value of U.S. wood pellet exports reached $171.43 million in June, up from $153.12 million in May and $141.32 million in June of last year. Total wood pellet exports for the first half of 2023 reached 4.59 million metric tons at a value of $855.8 million, compared to 4.35 million metric tons exported during the same period of last year at a value of $737.1 million.

Hello guys, in this video, YULONG engineer will take a tour in customers factory with you. This customer purchased one pellet production line with an capacity of 6-8 tons per hour. The area of the workshop is about 1600 square meters. If you are interested in our machine please consult us.

The U.S. Department of Energy`s Bioenergy Technologies Office (BETO) is encouraging innovators, researchers and manufacturers to partner with the DOE`s national laboratories to accelerate wood heater innovation. BETO issued a statement on July 11 encouraging those who are interested in accelerating wood heater innovation and developing the next generation of efficient and clean wood heaters to apply for the Cooperative Research and Development Agreement administered by Brookhaven National Laboratory and Lawrence Berkeley National Laboratory. The CRADA is funded by BETO. Parties selected to participate in the CRADA will work collaboratively with and leverage the unique expertise of BNL and LBNL to develop and validate the performance of innovative wood heater technologies and leverage the capabilities of these national labs to advance wood heater projects. Selected parties will also receive research support for improving wood heater combustion technologies to enhance efficiency, reduce emissions and optimize overall performance; obtain support for R&D of hydrogen technologies-such as the integration of heat pumps with wood heaters-to further enhance efficiency, sustainability and performance in residential heating systems; harness the full potential of data by leveraging data analysis in support from Wood Heater Innovation Collaboration partnering national laboratories; and support energy justice through development of low-emission wood heater technologies that disproportionately affect marginalized and low-income communities. According to the DOE, at least $4 million will be made available for the CRADA, with as many of six projects selected to participate. Project duration will be 12 to 18 months. Applicants are expected to provide a 20 percent cost share of requested funds. The WHIC is hosting an informational webinar focused on the CRADA call on July 14. The webinar is free and open to the public, but registration is required. Concept papers are due Aug. 11, with full proposals due Nov. 3. Parties selected to participate in the CRADA are currently expected to be notified in December.

The US Department of Agriculture (USDA) plans to invest up to $500 million from the Inflation Reduction Act to increase the availability of domestic biofuels. In December 2022, USDA made available $50 million in Inflation Reduction Act funding to expand the use and availability of higher-blend biofuels through the Higher Blends Infrastructure Incentive Program (HBIIP), created in 2020. (Earlier post.) USDA Secretary Tom Vilsack has now announced the first awardees of 59 infrastructure projects that will receive a total of $25 million from that first tranche of funding. In addition, USDA announced today that in July the Department will begin accepting applications for $450 million in grants through HBIIP. These grants will continue to support the infrastructure needed to lower out-of-pocket costs for transportation fueling and distribution facilities to install and upgrade biofuel-related infrastructure such as pumps, dispensers and storage tanks. Among the awards Secretary Vilsack announced: In Iowa, Kimmes Enterprises LLC will use a $510,500 grant to replace four E15 dispensers and four ethanol storage tanks at three fueling stations located in Carroll, Rockwell City and Baxter. This project is expected to increase annual sales of ethanol by approximately 635,000 gallons. In Minnesota, Farmers Cooperative Oil Company will use a $623,500 grant to replace nine E85 dispensers, two B20 dispensers, two ethanol storage tanks and two biodiesel storage tanks at a fueling station in Barnesville. The project is expected to increase annual sales of biofuels by nearly 122,000 gallons. In New York, Carmel Terminals Inc. will use a $1 million grant to install four 50,000-gallon B10 bioheat storage tanks, a 25,000-gallon B10 on-road biodiesel storage tank and a B100 biodiesel storage tank at a fuel distribution facility in Carmel. The funds also will be used to install piping, circulation lines, a heating system for biodiesel flow control, electronics and other equipment. This project is expected to increase annual sales of biodiesel by more than 16 million gallons. Additional awards will be announced in the coming weeks. Background: Higher Blends Infrastructure Incentive Program. HBIIP seeks to increase the availability of higher blends of ethanol and biodiesel derived from US agricultural products by sharing the costs to build and retrofit biofuel-related infrastructure. Grants cover up to 75% or $5 million of total project costs to help facilities convert to higher-blend fuels. The fuels must be greater than 10% for ethanol and greater than 5% for biodiesel. The $450 million in new funds will be available quarterly starting 1 July. Each quarter, $90 million will be available to support a variety of fueling operations: Approximately $67.5 million will be made available to transportation fueling facilities, including fueling stations; convenience stores; larger retail stores that also sell fuel; and transportation, freight, rail and marine fleet facilities. Approximately $18 million will be available to fuel distribution facilities, including terminal operations, depots and midstream operations. Up to $4.5 million will be made available to home heating oil distribution facilities. There will be five application windows for HBIIP between 1 July 2023, and 30 September 2024. A sixth application window will be opened if funding has not been exhausted.

Saskatchewan-based business, Prairie Clean Energy (PCE), is thrilled to announce they have been awarded a $1.1 million grant from the Mining Innovation Commercialization Accelerator (MICA) Network for their GHG emissions reduction project utilizing prairie biomass. Of the 24 projects receiving MICA funding, PCE was the only Saskatchewan recipient. This MICA grant provides yet another opportunity for the fast-growing bioenergy company. By using PCE`s proprietary, patented flax straw pellets to help heat potash mines, the carbon intensity of heat consumption in these mines can be reduced drastically. PCE`s chief product and supply chain development officer, Mahmood Ebadian, suggests, [This technology has the potential to reduce greenhouse gas emissions by up to 80 percent when used to displace fossil fuels for industrial process heating." Meanwhile PCE president and CEO, Mark Cooper, states, [The $1.1 million grant will help PCE continue to drive an energy revolution around the world through the use of our local prairie biomass." Partnering with Saskatchewan Polytechnic, PCE is using the grant money to provide a living lab demonstration through the implementation of a pilot operation at Saskatchewan Polytechnic`s Agriculture and Food Production diploma program field site near Moose Jaw. Saskatchewan Polytechnic is excited to welcome PCE to their Moose Jaw campus. Dr. Robin Smith, director of Saskatchewan Polytechnic`s Sustainability-Led Integrated Centres of Excellence (SLICE), shares, [We are excited for this applied research collaboration with Prairie Clean Energy. This project aligns perfectly with SLICE`s focus on the circular economy. With this project, agricultural waste in the form of flax straw will be used to generate energy and support the potash industry in lowering greenhouse gas emissions." As Saskatchewan produces 30 percent of global potash, making it the largest sole potash producer in the world, the ability to significantly reduce greenhouse gas emissions in these mines by utilizing local prairie biomass is an incredible opportunity. PCE`s partnership with Saskatchewan Polytechnic and their $1.1 million MICA grant will go a long way in making this significant greenhouse gas emissions reduction a reality. SLICE is based in Saskatchewan Polytechnic's School of Mining, Energy and Manufacturing and the School of Natural Resources and Built Environment. SLICE's vision is to advance sustainability in Saskatchewan and beyond through collaborative applied research for the benefit of our economy, environment, society, and future generations.

Spain produced a record 768,000 metric tons of wood pellets in 2022, according to a report filed with the USDA Foreign Agricultural Service`s Global Agricultural Information Network. Domestic consumption and exports were also up when compared to 2021. According to the report, Spain is among the top ten producers of wood pellets in the European Union but has not been a top consumer of wood pellets. Domestic consumption, however, increased last year, primarily due to higher residential use and improved competitiveness against alternative energy sources. Biomass tax reductions as well as incentives to install biomass stoves and boilers also helped boost consumption, although incentives for biomass consumption are relatively low when compared to other EU member states. Biomass and residues accounted for lessthan 2 percent of primary energy consumption in Spain last year. The report cites data noting that there were 238 biomass-based electricity production plants in Spain last year. These small-scale plants had a combined installed capacity of 1,026 megawatts (MW). The use of biomass in heating applications is more common in Spain. Residential heating accounts for nearly 70 percent of the country`s wood pellet consumption. According to the report, Spain had 83 operational pellet plants last year, up from 75 in 2021. Total capacity is estimated at 2 million metric tons per year. Total pellet production in Spain is estimated at approximately 768,000 metric tons in 2022. In addition to wood, pellets are also produced from olive kernels, tree nutshells, and sunflower kernels, with total pellet production estimated at approximately 2 million metric tons last year. Spain is a net exporter of wood pellets, with exports largely exceeding imports. According to the report, expanding pellet demand in other EU member states, combined with a shortage of wood pellets to supply to the EU from Ukraine and Russia in the aftermath of Russia`s invasion with Ukraine combined with current measures against Russia has triggered a steep increase in Spain`s pellet sales in EU countries. The report estimates that exports were at approximately 200,000 metric tons last year. Pellets imported into Spain largely come from neighboring Portugal, according to the report.

4 sets of XGJ560 pellet machines produce wood pellets Total production line of 6-8 tons per hour