For over 30 years, we have invested in creating six provincial R&D platforms and five joint laboratories to promote the development of molecular sieve adsorbent catalyst technology. Forming the backbone of our product iteration strategy, our R&D facilities combine basic and applied research principles to continually update our technology and production lines to meet global demand for our products.
We cooperate with 5 joint laboratories to gain different insights that would improve the performance of our molecular sieve product line.
Jalon pays attention to the development of the youth. In December 2020, Jalon donated 5 million RMB to the Pang Xu Foundation of Jilin University to support outstanding young talents and students engaged in basic and applied research on molecular sieves. Through our investment, we promote the development of new technologies that enhance the quality of Chinese molecular sieves
With a focus on quality, JALON offers superior products by refining existing products and design new products.
We have expanded the applications of our products to more than 20 industries in over 86 regions and countries.
Now, JALON has obtained 112 registered patents on technology innovation independently, making us a pioneer in this industry.
JALON has a professional scientific research team consisting of 78 experts, most of which have been granted PhD and master degrees from well-known universities at home and abroad, mainly focusing on the developments and applications of molecular sieve microporous materials.
With our heavy investment of 40 million RMB in R&D, our laboratory has been equipped with the state of the art instuments, which enables us to conduct experiments and tests to the highest level, covering more complicated application area.
By cooperating with top domestic universities, JALON can not only benefit from the add-on reserve of talent, but also create opportunities for students to take part in practical research work. Through this win-win cooperation, JALON gains rich scientific data to support its development.
Based on a fully-functioned pilot plant, we can check the reaction law after the reaction scale is expanded, the product variables, and whether the reactor can operate normally and obtain operating parameters. Therefore we can bring your idea into reality and provide tailored products for specific applications.
With the support of the goverment, JALON is able to set up a academician workstation where the academicians of the Chinese Academy of Sciences and the Chinese Academy of Engineering will work with our engineers to conduct joint research.
In this way, we can significantly strengthen our R&D capabilities, develop new technologies, new products, new processes and new equipment, and cultivate a brand of independent property rights.
Researcher and doctoral supervisor of Shanxi Institute of Coal Chemistry, Chinese Academy of Sciences
The fourth generation chief engineer of Jalon, leads the design and development of Luoyang Jalon Adsorption Material Industrial Park.
Technical consultant of Jalon, Professor-level senior engineer of Shanghai Institute of Chemical Industry.
Technical consultant of Jalon, Professor and doctoral supervisor of University of Science and Technology Beijing, director of the Institute of Gas Separation Engineering.
Technical consultant of Jalon; Ph.D., professor of the School of Chemistry of Jilin University, deputy director and secretary of the Molecular Sieve Professional Committee of the Chinese Chemical Society.
The second generation chief engineer of Jalon, Professor of Dalian Institute of Chemical Physics, Chinese Academy of Sciences
The third generation chief engineer of Jalon, Responsible for the development of industrial production of LiLSX molecular sieve, a highly efficient and energy-saving oxygen-generating adsorbent.
This letter is to inform you that we evaluated Molecular Sieve JLOED 3.0-5.0 MM product from Luoyang Jalon Micro-nano New Materials Co., Ltd to dry our organic solvents for production of electrolyte for Li ion battery. The resulting organic solvents that went through our process with the Molecular Sieve JLOED 3.0-5.0 MM product in our R/D and production facility located in Chico, CA, US passed our specifications showing extremely low content of moisture, below 10ppm. This Molecular Sieve product met our quality requirement, and it is highly recommended for use in the industry of Li ion battery for drying of organic solvents. We also appreciate the technical support from the company.
Nanotech Energy
Luoyang Jalon Micro-nano New Materials Co., Ltd. JLPM series molecular sieves are mainly used for cryogenic drying of general industrial gases. The purification system in the air separation unit removes H2O and CO2, as well as natural gas and other hydrocarbon desulfurization (removal of H2S and mercaptans) and CO2.
It is worth mentioning that Yuntianhua United Commerce Co., Ltd. Company 52000 Nm3/Cryogenic air separation unit project. The design and manufacture method of the air separation unit by air, adsorber adopt vertical radial flow design, processing capacity of 311352 nm3 / h, 5.13 Bar (A) adsorption pressure, loading type my company JLPM3 efficient molecular sieve 92 tons, 107 tons of activated alumina, can ensure that the CO2 content in the air mean 1000 parts per million (2000 PPM) instantaneous equipment and stable operation, export CO2 molecular sieve < 0.1 PPM.
The fifth-generation high-performance molecular sieve JLPM1 is an advanced molecular sieve used in the pre-purification unit (APPU) of air separation equipment. Compared with previous generations, the fifth-generation high-performance molecular sieve JLPM1 has significantly improved CO2 adsorption capacity; the fifth-generation high-performance molecular sieve JLPM1 will bring multiple benefits to air separation designers and operators. For the design of the new air separation plant, the application of the fifth-generation high-performance molecular sieve JLPM1 can make the air separation occupy a smaller area, thereby reducing equipment investment and operating costs. The fifth-generation high-performance molecular sieve JLPM1 can also be used for the transformation of old equipment, which can reduce energy consumption or improveair separation processing capacity.
Oxygen molecular sieve is an important material to ensure the work of VPSA oxygen production equipment. This project is another successful case of our JLOX-103 lithium-type high-efficiency oxygen molecular sieve.
The 30000Nm3/h pressure swing adsorption (VPSA) oxygen production project of Zhuhai Yueyufeng Iron and Steel Co., Ltd., designed and built by CSSC Huanggang Precious Metals Co., Ltd., was successfully started up on June 27, 2019. As of May 29, 2020, the device has been operating stably for 11 months, and all indicators are better than the design indicators. It has been highly recognized and praised by customers, and has created a cumulative effect of 150 million yuan per year for the enterprise. At the same time, the project has realized intelligent oxygen production, mobile control and remote monitoring to guide production, helping to realize the green and intelligent promotion of the industry.
The project uses 4 sets of pressure swing adsorption (VPSA) oxygen generators in parallel. The single set of device is designed to produce 7500Nm3/h of oxygen and 80% oxygen purity. It is filled with our company (Luoyang Jalon Micro Nano New Materials Co., Ltd.) JLOX-103 lithium-type high-efficiency oxygen molecular sieve is 68 tons, the actual oxygen output reaches 7650Nm3/h, and the oxygen concentration is above 82.3%. The 4 sets of equipment in this project are filled with 272 tons of our JLOX-103 oxygen molecular sieve, with a total oxygen production of more than 30000Nm3/h.
Oxygen molecular sieve is an important material to ensure the operation of VPSA oxygen production equipment. This project is another successful case of our company’s JLOX-103 lithium-type high-efficiency oxygen molecular sieve.
Luoyang Jalon Micro-nano New Materials Co., Ltd. JLOX-100 series high-efficiency oxygen generation molecular sieve is a lithium X-type aluminosilicate crystal, which is an oxygen generation molecular sieve with international advanced level. Widely used in: iron and steel, non-ferrous metallurgy, chemical industry, furnace energy-saving transformation, environmental protection, papermaking, aquaculture, medical care and other industries.
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