Biomass Refining Market Overview, Demand, Key Players and Regional Outlook Study 2017 – 2032

Overview:

The Biomass Refining Market refers to the market for converting biomass feedstock into value-added products through various refining processes. Biomass refers to organic materials derived from plants and agricultural residues, which can be used as a renewable and sustainable source of energy and chemical feedstock. Biomass refining involves the conversion of biomass into biofuels, biochemicals, bioplastics, and other valuable products. The Global Biorefinery Market is estimated to reach over USD 336.39 billion by 2031, exhibiting a CAGR of 9.06% during the forecast period. Here is an overview, key trends, key points, and demand factors related to the Biomass Refining Market:

Key Trends:

•             Shift towards Renewable Energy: The increasing focus on reducing greenhouse gas emissions and dependence on fossil fuels has propelled the demand for renewable energy sources. Biomass refining plays a vital role in the production of biofuels, such as bioethanol and biodiesel, which can replace fossil fuels in transportation and power generation.

•             Circular Economy and Waste Valorization: Biomass refining enables the valorization of organic waste streams and by-products from agricultural, forestry, and food processing industries. It contributes to the circular economy by converting waste materials into valuable products, reducing waste generation and promoting sustainable resource utilization.

•             Advanced Conversion Technologies: Advancements in biomass refining technologies, such as pyrolysis, gasification, and enzymatic hydrolysis, have improved the efficiency and scalability of biomass conversion processes. These technologies offer opportunities for the production of advanced biofuels and high-value biochemicals from diverse biomass feedstocks.

•             Biorefineries and Integrated Value Chains: Biomass refining often takes place in biorefineries, which are facilities that integrate multiple conversion processes to maximize the production of various products from biomass. Integrated value chains, where different industries collaborate to optimize biomass utilization, are emerging to leverage the potential of biomass refining across multiple sectors.

•             Policy Support and Incentives: Government policies and incentives promoting renewable energy, sustainable development, and decarbonization efforts are driving the demand for biomass refining. Supportive regulations, financial incentives, and research and development initiatives are encouraging investments in biomass refining technologies and infrastructure.

Key Points and Demand Factors:

•             Bioenergy Demand: The demand for bioenergy as a renewable alternative to fossil fuels in transportation and power generation is a significant driver for biomass refining. Biofuels derived from biomass, such as bioethanol and biodiesel, are sought after to meet renewable energy targets and reduce carbon emissions.

•             Sustainability and Environmental Concerns: Biomass refining offers a more sustainable and environmentally friendly alternative to traditional fossil fuel-based industries. The utilization of biomass feedstocks helps reduce greenhouse gas emissions, promote waste valorization, and minimize the environmental impact of energy and chemical production.

•             Renewable Chemicals and Materials: The demand for renewable chemicals and materials, such as bioplastics, bio-based polymers, and biochemicals, is growing. Biomass refining enables the production of these sustainable alternatives, driven by consumer preferences for eco-friendly products and the need to reduce reliance on petrochemicals.

•             Feedstock Availability: The availability and accessibility of biomass feedstocks, including agricultural residues, dedicated energy crops, and forestry residues, influence the demand for biomass refining. Regional biomass availability and supply chain logistics play a crucial role in determining the viability and competitiveness of biomass refining operations.

•             Technological Advancements and Cost Competitiveness: Continuous technological advancements in biomass refining processes, such as improved conversion efficiency, scalability, and cost reduction, are key factors driving market demand. The ability to produce biofuels and biochemicals at competitive prices compared to fossil fuel alternatives is essential for market growth and adoption.

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Market Segmentations:

Global Trailer Substation Market: By Company

• Hitachi

• Siemens

• Matelec

• Efacec

• EATON

• CG

• GE

• EKOS Group

• WEG

• Delta Star

• Meidensha Corporation

• AZZ

• Ampcontrol Pty Ltd.

• Tadeo Czerweny S.A.

• Tgood

• VRT

• Powell Industries

• Jacobsen Elektro

• Elgin Power Solutions

• Aktif Group

Global Trailer Substation Market: By Type

• HV Trailer Substation

• LV/MV Trailer Substation

Global Trailer Substation Market: By Application

• Energy

• Infrastructure

• Industrial

• Others

Global Trailer Substation Market: Regional Analysis

All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Trailer Substation market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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• To obtain insights into industry trends and dynamics, including market size, growth rates, and important factors and difficulties. This study offers insightful information on these topics.

• To identify important participants and rivals: This research studies can assist companies in identifying key participants and rivals in their sector, along with their market share, business plans, and strengths and weaknesses.

• To comprehend consumer behaviour: these research studies can offer insightful information about customer behaviour, including preferences, spending patterns, and demographics.

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Burning Bright Bio Briquettes Manufacturers - Shubh Shree Bricks

Shubh Shree Bricks is  also known as Bio Briquettes Manufacturers, are an eco-friendly alternative to traditional fossil fuels. These compacted blocks of  materials are produced using various agricultural and forestry residues, such as sawdust, agricultural waste, and wood chips. It is  play a crucial role in converting these renewable resources into clean and efficient energy sources. 

Densification Technologies:It is a leading of machines and equipment. Their state-of-the-art briquetting technology enables the conversion of  residues into high-density briquettes with consistent quality and performance. We are  offers a wide range of briquetting solutions tailored to meet the specific needs of different industries and applications.

RUF Briquetting Systems:It is a global leader in biomass briquetting technology, offering innovative solutions for biomass waste recycling and energy generation. Their  machines are known for their reliability, efficiency, and durability, enabling customers to produce high-quality  from various feedstocks. We are used in industries such as agriculture, forestry,  and energy production.

C.F. Nielsen: It  is a Danish company specialized in the development and manufacture of briquetting solutions  and waste materials. We are designed to process a wide range of feedstocks, including straw, rice husks, and paper waste, into compact and energy-dense briquettes. It is technology offers efficient conversion of residues into valuable energy resources, contributing to environmental sustainability and resource conservation.

Briquette Master Indonesia: It  is a leading producer of  specializing in the manufacture of premium-quality briquettes from sustainable biomass sources. The company's state-of-the-art production facilities and stringent quality control measures ensure consistent product quality and performance. Briquette Master Indonesia's bio briquettes are widely used for heating, cooking, and industrial applications, providing an environmentally friendly alternative to fossil fuels Bio Briquettes Suppliers.

Address : Jaipur:- Pn. 8, Ganesh Vihar-b, T.n. Mishra Marg, Nirman Nagar, Jaipur, 302019

 Phone No : +91 9799998880

Email Id : [email protected]

Url : https://www.biomass.co.in/manufacturers/bio-briquettes.html

PLATE COMPACTOR

https://www.bycongrp.com/products/plate-compactor/

A plate compactor is a very basic machine in construction machinery. It is used to compact soil, granite, and other materials, especially in roadway building, foundation establishing and other construction projects. It is a machine or mechanism used to reduce the size of material such as waste material or biomass through compaction. The plate compactor (vibratory rammer) has a large vibrating base plate and is suited for creating a level grade. It is working in such way that the machine transmission power from the engine to the base plate via a continuously vibrating hammer, a stress forced into the soil and extrude inside air and waste materials to compact soil.

 In geotechnical engineering, soil compaction is the process in which a stress applied to a soil causes densification as air is displaced from the pores between the soil grains. When stress is applied that causes densification due to water (or other liquid) being displaced from between the soil grains, then consolidation, not compaction, has occurred. Normally, compaction is the result of heavy machinery compressing the soil. Soil compaction is a vital part of the construction process. It biomass for support of structural entities such as building foundations, roadways, walkways, and earth retaining structures to name a few.

 Compactor plates are wider than rammer plates, which means that its weight and compaction force is spread out over a greater area. This plays well to its strength in vibrating base material into place.

Biomass Briquette Market

Market Overview:

Large scale agricultural activities globally have resulted in liberation of large volumes of residues. Rice husk, bagasse, coir pith, nut shells, and cotton stalks among others are the major agriresidues produced in the world. These residues has been posing environmental threat in the form of air pollution and surged the need for proper waste management methods. Biomass briquetting is a method of converting biomass into usable fuel blocks. Biomass includes agriresidues, paper and saw dust that are generated in bulk quantities in various agro-industrial activities. Briquetting is a densification process involving low pressure compaction of agroresidues into high-pressure fuel blocks, commonly referred as biomass briquettes. These briquettes are considered as effective substitutes to charcoal and are widely in use as alternative fuel for coal, wood and lignite across the globe.

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Market Dynamics:

The growing demand for biofuel substitutes

The growing demand for biofuel substitutes in industrial applications coupled with efforts to reduce the consumption of fossil fuels is the primary growth factor for biomass briquettes market. Governments and environmental protection agencies are striving to reduce the use of fossil fuels and unrenewable energy sources to curb global warming and rising greenhouse gas emissions. Bio-briquettes found as the sustainable alternative to coal in industrial heating applications and reliable energy source. Other potential benefits of these blocks including high combustibility, low residue content, sulfur-free and economic factors are boosting the use of bio briquettes in these applications. Utilization of biomass briquettes is also beneficial to the environment in that it eliminates on-field burning of agriresidues by providing alternative market for commercial utilization as fuel.

However, the lack of favorable policies that promote the production and utilization of bio-briquettes is hindering the market growth in most of the geographies

Market Segmentation:

– By Source

·       Agro waste Briquettes*

·       Sawdust Briquettes

·       Wood Briquettes

– By Application

·       Household Cooking Fuel*

·       Power Generation

·       Thermal Heating

Geographical Penetration:

Europe is expected to dominate the global biomass briquette market during the forecast period

By Geography, Europe is the key region in the market growth. Biomass briquettes are widely used to meet industrial and domestic energy requirements in most of the European countries. Countries such as Hungary, Poland and Austria are on the forefront of consumption. Abundance of biomass residues led to the production of biomass briquettes. Developing nations in the region has been the largest consumer of bio-briquettes historically, majorly in domestic cooking activities owing to limited sources of cooking fuel. The market is recently gaining prominence among developed economies, which use these blocks for heating boilers in electricity generation. China is likely to witness largest growth rate in market penetration owing to government policies towards boosting production.

Competitive Landscape:

The global biomass briquette market is highly fragmented with the presence of large number of companies. Majority of bio-briquette manufacturers are small to medium sized companies with limited production capacity and geographical reach. The market is also stagnant in terms of production technology with most of the current manufacturing facilities equipped with either piston press or screw extrusion machines. However, the favoring policies to boost the use of sustainable fuels is likely to increase demand in local applications and boost profit margins in near future. In December 2020, The Goa Energy Development Agency (GEDA) has invited bids to set up a 2,000 kg/HR biomass briquetting project at Saligao, Bardez in Goa. The scope of work includes the setting up of a 2,000 kg/HR biomass briquetting project based on tree waste, tender coconut waste, and coconut leaves waste in Goa.

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Oslo Science City Building by BIG, Norway

Oslo Science City Building by BIG, Norwegian Architecture Images, Knowledge Capital Norway

Oslo Science City Building by BIG

3 December 2021

Architects: Bjarke Ingels Group – BIG with a-lab

Location: central Oslo, Norway

A new innovation district in Norway: Oslo Science City

Oslo Science City Building by BIG

Anchored in the City of Oslo’s 2019 “Strategy for the Development of the Knowledge Capital”, the new 1.4 million m2 Oslo Science City will create a physical framework for Norway’s innovation environment of estimated 150,000 scientists, students, entrepreneurs, and contribute to the country’s transition to renewable energy.

Oslo Science City located in central Oslo, is currently home to approximately 300 start-up companies, 7,500 researchers, 10,000 hospital employees and 30,000 students. The year-long feasibility study to add 1.4 million m2 is the first step towards creating the physical framework for an innovation district in the country and plans for Oslo regions growth of 22% by 2045 or approximately 1.6 million inhabitants.

Developed by BIG, A-lab, mobility experts CIVITAS, design community COMTE BUREAU and advisors Dr. Tim Moonen/THE BUSINESS OF CITIES and Leo Grünfeld/MENON ECONOMICS, the innovation district aims to be a net zero emission area that builds on renewable energy, energy efficiency, circular economic principles and zero emission solutions during development and operation.

“Our design for Oslo Science City seeks to strengthen and develop the existing communities and neighborhoods while expanding the area’s diversity through new spaces to live, work and share knowledge. To manifest the identity of Oslo Science City, the elements of the master plan are tied together in a continuous loop of welcoming multifunctional buildings and spaces that open out towards the streets and create an engaging urban environment,” says Bjarke Ingels, Founder and creative director of BIG.

The plan identifies four thematic areas to position Oslo Science City as a leading centre for innovation, knowledge-based value creation and sustainable solutions based on existing and future activities: Health and Life Sciences, incl. Norway’s largest Life Sciences building for research and teaching to be completed by 2026 and an expansion of Oslo Cancer Cluster. Climate, Energy and Environment, establishing a campus and a power center for research and innovation between the country’s leading research institute SINTEF, The Norwegian Geotechnical Institute (NGI), the Norwegian Institute for Energy Technology (IFE), the Norwegian Institute for Water Research (NIVA) and the Norwegian Institute for Air Research (NILU) amongst others.

Digitalization and Computational Science, fostering collaborations between organizations such as the Department of Informatics (IFI) at the University of Oslo, The Norwegian Computing Center (NR), NORA – Norwegian Artificial Intelligence Research Consortium, which explores artificial intelligence, machine learning and robotics, and many others; and Democracy and Inclusion where new knowledge will be developed about the threats and solutions to strengthen democracy, the role of democratic institutions in a time of technological disruption, increased economic inequality and anti-democratic forces.

Oslo Science City aspires to be a good example of a holistic approach to planning, where efficient land use and densification go hand in hand with increasing the amount of biomass in the area. Environmentally friendly buildings, climate adaptation with the help of nature-based solutions, incl. a new green and densely vegetated corridor through OSC, extensive tree planting throughout the entire neighborhood, emission-free mobility, energy efficiency and circular principles will characterize all development in Oslo Science City.

Oslo Science City, Norway – Building Information

FACTS Name: Oslo Science City Size: 1,400,000 m2 Location: Oslo, Norway Client: Oslo Science City Project type: Urbanism, Masterplan

PROJECT TEAM Partner-in-Charge: Bjarke Ingels, David Zahle Project Leader: Kamilla Heskje Project Architect: Camille Breuil Collaborators: a-lab, Comte, Civitas & Menon BIG Team: Laura Wätte, Jenna Kaisa Hukkinen, Eirini Karamfyllidou, Vladislav Saprunenko

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BIG-Bjarke Ingels Group Architects News

Oslo Science City Building by BIG images / information received 021221 from Bjarke Ingels Group – BIG

Location: central Oslo, Norway

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Holmen Industrial Area, Vesterålen, Nordland county, Northern Norway Architects: Snøhetta photograph © Stephen Citrone Holmen Industrial Area in North Norway

Floating Sauna, Tromsø Harbour, Troms county, Northern Norway Design: Skapa Architects photo : David Jensen Floating Sauna

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Learn More About The Various Positive Impact Of Firewood As Biomass Fuel

By Barbara Parker

Strong wood and cultivating deposits will be significant alternatives as feedstock for quality creation in addition to they should either be used straightforwardly or maybe thermo artificially changed. A considerable lot of these segments are, by and by, not perfect for prompt utilization, since they would be overwhelming, not saying heterogeneous in shape and size. These kinds of varieties not simply make hard to deal with, store and transport, however to likewise combust, on the grounds that such a large number of gasifiers are not ready to manage heterogeneous molecule sizes not at all like firewood Vermont. One would find so many ways to solve these problems, which briquetting and pelleting will be the mostly utilized technologies. This entails condensing previously com-minuted firewood into densified particles. Briquettes are usually bigger than pellets having a size around 8cm. Pellets possess sizes of just a few centimeter and less. This kind of preprocessing of into briquettes enhances the handling features, as well as its bulk density and eventually its volumetric calorific value. Relating to, a great benefit of loose densification would be that generally, the compression escalates the energy calorific value. The bulk denseness of loose, which is normally about 200 kgm3 can be risen to densities up to 800 kgm3. Compound substance organization, and last briquette thickness happen to be urgent rules influencing the ignition viability of any sort. These can be delivered from different resources, which change in their concoction substance synthesis. This is attributed to the quality component of strong wood that capacities as an all normal glue alongside its own sum contrasts for various assortments. Firewood assists in the compression of contaminants into formed briquettes, as it assists in the adhesion among contaminants. Besides real wood, agricultural waste materials or poultry litter might contain much less mass and can consequently harder to shrink into by steady mechanical means commonly possible. Alternatively a degree of precision is essential to press briquettes ensuring that the contaminants stick to one another through hydrogen provides. If created briquettes will be challenged or perhaps too dry out, they might break down and result in loss and assists this be hard to look after. Agricultural residues routinely possess high calorific ideals different from timber. The examination of broken hard wood that could be dried by air for several days varies among substances, whereas farming includes among the type of fuel. Around 15 is normally adequate in fills used for ignition, which means most should be thoroughly dried before being readied. Ordinary quality material range between 13 and 17 Mohs, regarding the sort feedstock. Amazingly, one more concern in light of the gas decision would be the cinder. This is actually the inorganic subject that could not be combusted and can stay in the proper execution of burning ash and needs to be discarded following combustion. Real wood fuels routinely have low ash items around 0. 5, while a great many other gardening residues may have lung burning ash articles up to 20 or higher. The inorganic matter amount inside also impacts its final calorific value. Weather change together with related global environmental circumstances and modifications in our atmospheric focus of intervention and various chemical substances are actually resulting in a great expanding desire towards alternatives to hardly renewable fuels. Fossil gas shares are limited and also have harmful results to environmental conditions. This is because of air pollution triggered by the release of garden greenhouse and other harmful gases.

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Biomass Briquettes Market Analysis by Segments, Size, Trends, Growth and Forecast 2025

Increasing emission of carbon dioxide, carbon monoxide, and other harmful gases is a major reason for global warming, and it has become a major international concern in recent years. A majority of the population living in developing countries is dependent on wood and other fossil fuels such as charcoal and kerosene for their domestic energy needs, which in turn is resulting in increasing air pollution and massive deforestation around the globe.

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It is very important to protect forestry resources as they help purify polluted air by absorbing harmful gases such as carbon dioxide and carbon monoxide. It is important to develop new technology that can convert bio waste into a useful substitute in order to replace charcoal and wood usage in the energy mix. Biomass briquette production is a recently developed process, which is a type of clean coal technology based on the usage of bio waste to form usable briquettes to substitute charcoal and conventional firewood in cooking and other domestic tasks.

Most bio waste and bio residue are produced in developing countries, which are also responsible for causing other forms of pollution. Major bio residues that are identified to be used for producing biomass briquette are coffee husk, jute sticks, rice husk, groundnut shells, coir pith, bagasse, cotton stalks, and mustard stalks. A major constituent of biomass briquettes is sawdust, a type of milling residue also available extensively around the globe. There are several problems related to the storage, transportation, and handling of bio wastes. Direct burning of loose biomass, without pretreatment, is associated with widespread air pollution and very low thermal efficiency.

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Biomass briquetting is also known as biomass densification of agro residues and sawdust. This method of producing usable biomass briquettes is becoming popular in the developing countries for its cheap and low polluting properties. The technology to produce biomass briquettes is based on the density increment of the conventional biomass in conjugation with sawdust to make small usable briquettes, which can be employed for cooking and other domestic needs.

Screw extrusion briquetting technology is a widely employed method to produce biomass briquettes around the globe. The process was developed and invented in Japan, in 1945. After becoming popular in Japan, it spread around the globe as a solution for rural and domestic energy needs. Presently, screw extrusion machines and piston or ram press are the most popular high pressure biomass briquettes production technologies.

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