Biomass2Power

A Sustainable Power Source

What is Biomass?

Biomass

Biomass energy is a renewable energy source derived from organic materials such as wood, agricultural crops, and waste. These materials, known as biomass, contain stored energy from the sun, which can be converted into heat, electricity, and even biofuels. Biomass offers a sustainable way to reduce reliance on fossil fuels while utilizing natural resources that are readily available.

Biomass and Organic Solid Waste Resource Utilization Solutions

Biomass and organic solid waste are valuable resources that can be harnessed for energy production and resource recovery. Several advanced technology solutions are designed to efficiently convert these materials into energy, heat, or valuable byproducts. Below are the key methods and systems used in this process.

Direct Combustion Method

This technology solution adopts the grate type direct combustion method to burn biomass and other organic solid waste directly to generate thermodynamic power for power generation, heat supply and other resource utilization.

Gasification Method

This technical solution adopts the "Anaerobic gasification" method to pyrolyze and gasify the combustible components of biomass into "biomass gas" through high-temperature gasification technology in a closed, spent oxygen state, and then burn the biomass gas for secondary combustion and resource utilization.

Pyrolysis Method

This technical solution adopts the method of "Adiabatic pyrolysis" to pyrolyze the biomass contained in organic solid waste into "biomass pyrolysis gas" by using the process of "high temperature cracking" under the condition of confinement and adiabatic cracking, and then use it for resource utilization.

Biomass2Power Product

Biomass2Power 50kW

Biomass2Power 100kW

Biomass2Power 250kW

Biomass2Power 500kW

The high-temperature Biomass2Power equipment allows for a distributed, modularized, and flexible layout, making it suitable for various applications. It can operate independently off the grid and generate excess clean electricity for monetization. The heat produced during the process can be recovered for drying applications or steam application. Additionally, while generating energy, the system can also produce up-to 30% biochar, a valuable byproduct that enhances its economic value

Incineration Power Generation System

Organic solid waste incineration power generation (Stirling) process flow

The process flow is designed for the incineration characteristics and the characteristics of the Stirling generator set, which is shown in the figure below. The Stirling generator set is installed at the exit of the second combustion chamber, and it fully absorbs the heat of the flue gas in the high-temperature section of more than 800 ℃.The flue gas below 600~700℃ passing through the Sterling generator set enters into the purification system, and the purification process adopts the process combining with sharp cooling deacidification tower + activated carbon injector + bag filter + nano-catalytic reactor + chimney.

Advantage: The system has high thermal efficiency, large scale (20~100 tons/hour) and cogeneration;

Disadvantages: Environmental protection controls are more difficult.

Anaerobic Gasification Cogeneration System

“Anaerobic gasification” cogeneration system for organic solid waste (including biomass)

The process flow is designed for the characteristics of the Stirling generator set, which is shown in the figure below. The Stirling generator set is installed at the exit of the second combustion chamber, and it fully absorbs the heat of the flue gas in the high-temperature section of more than 800 ℃, and the flue gas below 600~700℃ passing through the Sterling generator set enters the heat reuse system, and after three times of heat utilization of the system, the heat and power conversion rate of the system reaches more than 60% and up to 80%.

High-Temperature Pyrolysis Heat-Electricity-Carbon Tri-Generation System

The high-temperature pyrolysis process used in this equipment allows for a distributed, modularized, and flexible layout, making it suitable for various applications. It can operate independently of the grid, making it ideal for areas with limited or no power supply. Additionally, while generating energy, the system can also produce biochar, a valuable byproduct that enhances its economic value.

Comparison of Three Technological Solution Routes for Organic Solid Waste

Broad Application of Biomass Solutions

These biomass and organic solid waste solutions are suitable for a wide range of industries:

Industrial Parks

Machinery processing enterprises

Key energy-consuming enterprises

District centralized heat supply

Pharmaceutical enterprises

Food processing enterprises

Chemical enterprises

Glass manufacturing industry

Hydrogen production industry

Feed processing enterprises

Wood processing Enterprises

Rubber vulcanization enterprises

And other energy-consuming and powerconsuming
enterprises, etc.

Machinery processing enterprises

Industrial Parks

Pharmaceutical enterprises

Food processing enterprises

Key energy-consuming enterprises

District centralized heat supply

Chemical enterprises

Glass manufacturing industry

Hydrogen production industry

Feed processing enterprises

Wood processing Enterprises

Rubber vulcanization enterprises

And other energy-consuming and powerconsuming
enterprises, etc.

Turnkey Solutions for Biomass Resource Utilization

We offer comprehensive turnkey solutions for organic solid waste (including biomass) resource utilization. Our services include site assessment, program development, engineering design, project supervision, and post-installation support. We ensure a seamless process from planning to implementation, delivering efficient and cost-effective waste-to-energy solutions.

Organic Solid Waste (Including Biomass) Resource Utilization Granulation System

The vertical centrifugal pellet machine is the latest technology for biomass granulation. It features a reinforced spindle and heavy-duty gearbox for increased stability and low failure rates. The system ensures high automation and minimal maintenance, making it a preferred solution for biomass processing industries.

Organic Solid Waste (Including Garbage) Reduction and Resource Utilization System

Our waste reduction system efficiently processes mixed waste into high-quality alternative fuels (RDF/SRF), recyclable raw materials, and iron. The system is highly automated and suitable for handling large volumes of waste, ensuring a clean, dust-free working environment with stable, long-term performance.

Sludge Drying Products

Mesh Belt Type Sludge Drying Machine

A highly efficient and energy-saving solution for drying various sludge types. It utilizes low-temperature waste heat sources and features a modular design for customization and easy installation. With a focus on environmental sustainability, this equipment offers fully enclosed dehumidification drying, eliminating odor emissions and reducing energy consumption. It is ideal for businesses looking to reduce sludge volume and improve waste management practices.

Drum Type Sludge Drying Machine

The Drum Type Sludge Drying Machine is a highly efficient dryer that uses a rotating drum with baffles to distribute and dry wet materials. Hot air flows through the drum, drying the material as it moves towards the star-shaped unloader. This design ensures uniform drying and efficient material transfer.

Disk Type Sludge Drying Machine

It features both shell and rotor heating for enhanced thermal efficiency. Its unique design with heated discs and adjustable pushers ensures thorough material drying. With a wide range of applications, including municipal sludge, industrial sludge, and various other materials, this machine offers high drying efficiency, long service life, and low maintenance requirements. It is a versatile and reliable choice for various drying needs.

Paddle Type Sludge Drying Machine

It features a unique design that allows for both the shell and internal rotor to be heated, maximizing heat transfer and drying efficiency. This machine can handle a wide range of materials, from heat-sensitive to high-temperature requiring substances, while consuming minimal energy due to its indirect heating method. Its simple structure and low maintenance requirements make it a cost-effective and reliable choice for various drying applications.

Biomass Pyrolysis Carbonization Products

Biomass Activated Carbon Manufacturing Plant

The Whole System Integration of Biomass Carbonization Equipment is a highly efficient and reliable system designed for biomass carbonization. It features high-quality materials, advanced technology, and a focus on environmental sustainability. The equipment includes a carbonization furnace, activation furnace, flue gas treatment system, dust removal system, conveying system, crushing system, screening system, and packing system. These integrated components work together to ensure efficient carbonization, reduced emissions, and improved product quality.

Raw Material Crushing Equipment

Drying Equipment

"Rotary Kiln Carbonization" Equipment

Activation Equipment

Activated Carbon Deep Processing Equipment