Technology-Basemof

Technology

Significant breakthroughs with MOFs processing&industrial application

Gas seperation with MOFs Slurry mothod

Metal-organic frameworks (MOFs) are innovative porous materials with high specific surface area, sophisticated pore structures, diverse compositions, and exceptional thermal stability. They have emerged as the leading gas separation materials globally, surpassing conventional porous materials. MOFs offer extensive potential in various fields such as ion exchange, gas adsorption, small molecule storage, gas separation, heterogeneous catalysis, luminescence, and magnetism.

By adding organic solvents, MOFs enable continuous gas adsorption-desorption cycles while minimizing energy consumption. In addition, this breakthrough has successfully addressed the bottleneck of using fixed-bed switching operations for adsorption separation, enabling continuous production simply based on the conventional dual-tower technology.

High adaptability

Suitable for gas separation of various concentrations, including those exceeding 10 mol%
High stability

Able to ensure stable operation
for a prolonged period
High resistance

Resistant to salt, hydrogen sulfide and particles
High operational reliability

Resistant to layering or settling
Resistant to scaling
High safety and environmental friendliness

Non-toxic, harmless, odorless
and pollution-free

MOFs material process

MOFs are highly regarded as the most promising materials for global gas separation. However, their high manufacturing costs, reaching tens of millions of dollars per ton, pose a significant hurdle for industrial application. The gas separation industry is therefore confronted with the task of achieving cost-effective, large-scale production of MOFs.

Leveraging its material and process advantages, Basemof has successfully overcome the production process bottleneck of MOFs, achieving substantial cost reduction, streamlined material preparation, shortened synthesis time and mass production, which makes large-scale manufacturing and supply of MOFs a tangible reality.

Benchmark industrial demonstration project

Fengcheng FC Carbon Capture Project

The first MOF slurry-based carbon capture project in China, developed by Basemof, was completed and put into operation in 2023. Designed with a daily capacity of 150,000 m³, the project represents the largest single-unit MOF carbon capture project in the world, enabling an annual natural gas recovery of 30,000,000 m³, a liquid carbon dioxide output of 50,000 tons per year, and a total carbon emission reduction exceeding 100,000 tons. Currently, the project has achieved an electricity consumption of 0.73 GJ and thermal consumption of 0.84 GJ per ton of captured carbon dioxide, with a captured gas concentration of 98.5%, and capture rate of greater than 93%. Compared with conventional approaches, the operating energy consumption is reduced by 30%.

Ethane Recovery Project

Basemof has successfully recovered ethane from C2+ components of natural gas by precisely adjusting the types and proportions of MOFs and organic solvents, and has demonstrated this technology in an industrial-scale project with a capacity of 2000 Nm³/day. Compared with the current low-temperature distillation ethane recovery process, the innovative technology offers significant advantages. For projects of the same scale, the total investment cost can be reduced by over 70%, and the energy consumption per unit of ethane product can be reduced by more than 23%.

Full-Chain Industrial Support

MOFs Manufacturing Campus

The world's largest MOFs material production line has been established in the Panjin Fine Chemical Industry Park. With a production capacity up to tens of thousands of tons of MOFs per year, Basemof is dedicated to creating a new era for MOFs on a global scale.

MOFs Concept R&D Center

With the support by Wuxi Liyuan Development Zone, Basemof has established the Concept Validation Center and Pilot Plant for Crystalline Porous Materials (MOFs/COFs), which represents China's first facility dedicated to promoting the development of innovative porous materials, specifically MOFs and COFs. Basemof collaborates with an elite team of technical experts to facilitate the commercialization of a wide array of laboratory projects.

Diversified ecological field

Environmental protection

Chemicals

Electronics

Aerospace

Construction

Food

Energy

Biomedicine

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