Turn the pollution of the sky into the fertile land |
· We have built more than 300 sets of desulfurization units and the annual SO2 emission reduction is approximately 2 million tons, which greatly improved the atmospheric environment and the health of surrounding residents; |
· We changed coal into clean energy by means of meeting the emission standard of gas-fired unit on more than 100 sets of desulfurization units; |
· The annual by-product ammonium sulfate production is nearly 4 million tons. Except for export, most of it is used as sulfur-based compound fertilizer and is widely used in Chinese agricultural production; |
· There is no discharge of waste water and waste residue. Compared with other technologies, our technology has cumulatively reduced tens of millions of tons of desulfurized gypsum deposits and related secondary pollution; |
· Through the promotion in the field of sulfur recovery and refining, our technology replaces the traditional one revolutionarily and moreover, we solve the high-salt wastewater emission issue generated by the traditional technology; |
· Lower power consumption rate, compared with other mainstream desulfurization process, power consumption can be reduced by 50-100% which further promote energy conservation; |
· Nearly 50 chemical enterprises use waste aqueous ammonia to treat SO2 which contributes to a green recycling economy. |
Large green circular carbon economy |
There are extremely rich and stable solar resources in the Middle East and partial North Africa, which are very suitable for the development of large-scale solar power plants. However, the growth of local electricity demand is limited and cannot fully absorb the potential solar power capacity. Green hydrogen and green ammonia projects can be built locally on a large scale as the medium for energy storage and transition. Converting unconsumable solar energy into green ammonia for transportation to Europe can upgrade the local industries and promote green economic development in the Middle East. Some of the Middle East countries, such as Saudi Arabia and UAE, are already building large-scale green ammonia plants to convert redundant solar energy into green ammonia for export. |
New energy resources are limited in Europe:
Except for southern Europe, solar resources are limited or unstable in most of the region.
As for wind energy, most of the resources are mainly concentrated in offshore wind power plants in northern Europe, but the power generation capacity cannot solve the overall energy issue.
Many European countries, especially those in Central and Eastern Europe, still rely heavily on conventional energy sources.
Transporting the green ammonia produced in the Middle East to Europe through the Suez Canal, and utilizing the unique advantages of JNG decarbonization technology to convert carbon dioxide and green ammonia into green nitrogen fertilizer, the conventional power plants in Europe will no longer be the obstacle and bottleneck for carbon neutrality, which can achieve the goal of carbon neutrality while ensuring energy security. |
Food security has long plagued Africa, especially sub-Saharan Africa. The green nitrogen fertilizerproduced in Europe by decarbonization using JNG technology can be shipped to Africa to providelocals with low-cost and high-efficiency fertilizers, greatly promoting food production and reducingagricultural costs. Based on the amount of decarbonization by JNG in European market, at leastmillions of tons of green nitrogen fertilizer can be produced every year, which will make a greatcontribution to solving the problem of famine in Africa. |
A large green circular carbon economy linking the above three regions is a one-stop solution forthe problems faced respectively by the three regions, where only JNG technology can implementit perfectly.. |
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