In industrial production, such as steel industry, petroleum and chemical industry, mass of CO, as "waste", was not good used, for example: blast furnace gas, converter gas, yellow phosphorus tail gas, chemical tail gas, calcium carbide tail gas, garbage incineration gas, etc. Above gases are all rich in CO gas, can be used as secondary energy. PKU PIONEER developed a new VPSA-CO separation and purification technology. The new technology can recovery CO from secondary energy, and used it as chemical raw materials. By this way, it can greatly reduce CO2 emissions, save fossil energy, has good economic and social benefits.
The study to check and analyze the impact of Mahendra Kumar Trivedi's biofield energy treatment on the physical and structural properties of aluminium carbide powder.
Boron nitride is known for high hardness, thermal stability, thermal conductivity, and catalytic action. The study to check the influence of Mahendra Kumar trivedi's biofield energy treatment on physical, structural and spectral properties of boron nitride.
CO2 emissions have continued to rise over the last couple of years, and the growing demand for stable electricity, heating, cooling, and transportation, don't make things any better. With an increasing population, the global energy scene has been compromised. Amidst all these, ensuring access to clean and affordable energy for all and facilitating climate change without affecting economic progress has become a priority. The only way is to come up with a global response and have everyone on board with supporting green electricity.
Based on the high-efficient lithium-based VPSA-O2 adsorbent PU-8, combining with the unique airflow distribution technology, advanced process design and reliable supplementary devices, PIONEER has successfully ensured energy-efficient and large-scale VPSA-O2 plants to provide O2 product at a lower cost.
There are nearly 400 calcium carbide manufacturing enterprises in China at present whose total annual productivity exceeds 15 million tons. More than 15 billion m3 tail gas of calcium carbide furnace is produced in China every year. It mainly contains CO (75%~90%) which is total If fully discharged, equaling to the waste of 2.4 million tons of standard coal, and emits 12 million tons of CO2 and more than 900,000 tons of dust every year. It is the best way to save the energy, reduce the emission and transform the waste to treasure by reasonably utilizing CO.
n the process of steel production, a large number of blast furnace gas, converter gas, coke oven gas, rich in carbon monoxide, hydrogen and methane are valuable components, which are the main secondary energy sources of steel works. 55-60% of H2 is contained in coke oven gas, converter gas and blast furnace gas respectively
The global semiconductor industry has been steadily progressing and evolving. This progress can be directly attributed to the surging demand for innovative smart devices and connected technological advancements. Semiconductors have become essential and are now extensively adopted in several industries - communications, consumer electronics, defense, transportation, automotive, aerospace, and clean energy.
Owning to its low calorific value and combustion efficiency, a lot of blast furnace gas (BFG) is wasted in China. In this paper, pressure swing adsorption (PSA) technology was applied to purify BFG, which can improve the calorific value and combustion efficiency significantly. The technical feasibility, combustion efficiency and engineering economy analysis showed that BFG purified by PSA was the most effective way for energy saving and had a broad application prospect.
Unification theory with no extra dimensions. The first part unifies the strong nuclear force with the gravitational force in a mathematical way; the quantum vacuum is treated as a deformable system by the strong nuclear force. The second part unifies the nuclear force with the quantum vacuum in a hypothetical structure; the quantum vacuum is treated as a supersymmetric and metastable system with properties related to the different types of particles' motion.