Yashen’s high-throughput technology platform realizes the perfection of a series of traditional and cutting-edge technologies such as robotics, artificial intelligence, chemical informatics, mechanical design and process manufacturing, micro-machining, electrical control, automation, and software technology. Integration is highly complex and technically difficult. This platform is specially designed to meet the needs of new material research and development in the energy industry. It is at the world's leading level in terms of temperature, pressure, system error, etc. Some of the systems are the first in the world. The platform includes high-throughput parallel reactor systems PRS-16, PRS-32, and PRS-128, high-throughput pulse reactor system PPIR, high-throughput microreactor system MRS, and high-throughput high-shear mixing reactor System HTMX-52A, high-throughput system integration and control software HTDMS
, component and library design package, catalyst preparation electronic record book, experimental and system software package, data analysis and modeling studio, etc.
This platform can be used for catalyst screening and evaluation, catalytic reaction condition screening, kinetic research, mass and heat transfer research, process research, process simulation modeling amplification, catalyst life investigation, application fields include petrochemical industry , coal chemical industry, natural gas chemical industry, environmental protection, biomass conversion, etc.; HTMX-52A is used for rapid and effective mixing and reaction of multiple fluids (especially small doses, high viscosity or different viscosity fluids), and can be used in ionic liquids High-throughput research and development of chemical processes such as synthesis, polymer grafting, and nanomaterial synthesis.
Ashen Technology’s proprietary High-Throughput R&D Acceleration Technology (HTR&D) is a set of technologies and systematic methods to achieve “streamlined operations” in the research and development of new industrial materials. It can synthesize and screen a large number of material components. , formula and process parameters, greatly improving the industrialization speed of new material research and development. It integrates Yashen's unique knowledge, technology and team to enable the entire cycle of research, development, scale-up and process modeling, which is the development of new materials and processes, in all aspects in a parallel, automatic and systematic high-throughput manner. Effective interaction is possible, improving speed and success rate.
Ashen Technology HTR&D adopts a pyramid-style R&D strategy of massive parallelism, rapid system, and step-by-step approach to lock in the final industrialization results in a hierarchical and systematic manner.
The uniqueness of Yashen HTR&D is that it extends the concept of high-throughput from laboratory research to the entire industrialization process of R&D, scale-up, pilot testing and process modeling for the first time. Since late-stage R&D (small-scale test-pilot test-scale-up) occupies a larger proportion in the entire material/process development cycle, the accelerating effect of Yashen HTR&D on the overall industrialization cycle is particularly significant.
As a leading company in high-throughput technology, Yashen Technology researches, promotes and applies the industry's most advanced new material R&D solutions through the use of a new generation of HTR&D with independent intellectual property rights, and at the same time develops and optimizes various A new high-value material and process can significantly shorten its industrialization cycle and increase its success rate, thus promoting industrial upgrading, technological progress and product innovation in these fields. While creating huge wealth and excellent performance for society and customers, it has achieved sustained and rapid growth. Diesel is the most important fuel in China, and demand keeps pace with the growth of the national economy (the apparent domestic consumption of diesel in 2010 was approximately 150 million tons). However, the main problem of diesel is high pollution. The smoke and dust produced by diesel combustion have a particularly obvious impact on air quality. It is one of the main substances that pollute the urban environment. Smokeless diesel is the best solution to solve the problem of smoke and dust emissions.
The main method currently used to produce smokeless diesel is to add dimethyl carbonate (DMC), the flammable organic substance with the largest oxygen content, into ordinary diesel. Since DMC has good mutual solubility with diesel, its biggest future application is as a diesel blending agent: without any changes to engines, oil lines, gas stations, transportation vehicles and existing facilities, just use an appropriate proportion of DMC and Mixing ordinary diesel or biodiesel can significantly reduce or even eliminate smoke emissions and improve thermal efficiency of all types of diesel vehicles. Since the exhaust smoke emitted by motor vehicles is one of the main factors causing haze in the atmosphere, the application of DMC as a smokeless diesel blending agent will play a vital role in improving the cleanliness of fuel and reducing haze in the atmosphere.
Ashen Technology has independently developed the world's leading smokeless diesel production technology through innovation in R&D technology, namely the use of high-throughput R&D acceleration technology (HTR&D). The core of which is through new catalysts, new processes, Reactors and raw materials, greatly reducing the production cost of DMC, allowing manufacturers to sell it at a price lower than diesel, making DMC more widely used in the traditional chemical market and entering the fuel market. It creates considerable economic benefits for technology users and brings huge social and environmental benefits without increasing the cost of use for consumers. Smokeless diesel production technology can convert and utilize carbon dioxide in large tonnage, which is in line with the national economic development direction of energy conservation and emission reduction.
Based on the same principle, this technology is also suitable for the production of clean gasoline and has high economic and environmental benefits.
Smokeless diesel production technology and high-efficiency Fischer-Tropsch synthesis technology convert coal into alternative fuels cleanly, economically and efficiently. The entire process, products and applications are green and environmentally friendly. In addition, its outstanding economic advantages have also laid a solid foundation for creating a "triple win" for producers, users, and the environment and quickly realizing industrialization. Yashen Technology's high-efficiency Fischer-Tropsch synthesis technology uses its proprietary reactors, catalysts and related processes to produce clean oil products, including high-purity waxes, advanced lubricant base oils and clean fuels. Its raw material syngas can be converted from coke oven gas, coal gasification or biomass gasification, and its products can replace imported hard wax, high-grade lubricants and other petrochemical products.
This technology is currently in a leading position in the world. Its advantages are reflected in high productivity, high selectivity, low investment, quick results, and wide application range (such as emission reduction in coking plants, biomass utilization, etc.) Features. It adopts a modular Fischer-Tropsch synthesis process route with a mature, reliable and economical fixed-bed cobalt-based catalyst with tail gas circulation, and successfully overcomes the core problem of reactor heat transfer technology in the fixed-bed Fischer-Tropsch synthesis process.
Ashen Technology has adopted R&D technology innovation, that is, using high-throughput R&D acceleration technology (HTR&D) for catalyst development and even industrial process development, avoiding exploratory testing on an industrial scale to the greatest extent. It greatly reduces time and cost, improves technical reliability, and reduces technical and investment risks of industrial amplification. From catalyst selection and evaluation, accurate measurement of kinetic performance, mass and heat transfer calibration of shaped catalysts, determination of reactor performance under various operating conditions, definition of coupling effects in reactor industrial processing and operation, product separation and distillation, The energy consumption of the whole process is optimized. Each link has its most effective data extraction mode (for example, the evaluation of catalyst life only needs to be carried out on industrial raw materials but does not need to be carried out at large tonnage), and compared with the international advanced level. The data obtained in this mode are more targeted, the research and development results are more reliable and optimized, and the speed and cost can be optimized. Innovation and protection complement each other. Strong intellectual property protection is a strong guarantee for Yashen Technology's continued independent innovation. It is also the only way to ensure the final industrialization of innovation results and create huge economic and social value.
Yashen Technology has applied for more than 200 invention patents since its establishment. The comprehensive IP strategy effectively ensures the innovation results of the company itself, its customers and partners.
Within Yashen, intellectual property protection has been internalized into the conscious awareness and working methods of every Yashen employee. A complete system, basic structure and culture have been formed to protect intellectual property rights and business secrets.