Global Water Treatment Technology Urgently Needs Innovation
If you want to modernize the global water system in the next 20 years, you are expected to invest 1 trillion yuan in funding. In addition, the renewal and maintenance of water infrastructure is also a huge potential capital expenditure. It is difficult for the government to consolidate and improve the water supply services alone. It is necessary for the business community to raise awareness of water scarcity and accelerate the innovation of response technologies. Previously, General Electric invested some of its funds in the development of filter equipment for sewage treatment systems, but this investment accounted for less than 2% of its income.
At present, the demand for water in the industrial water market is increasing. According to statistics, the consumption of water for daily drinking accounts for only 3% to 5%, and the rest is all for industrial, washing and other applications. According to experts, the world’s water treatment technologies are generally outdated and cannot keep up with the great changes in the demand for water resources.
Making full use of seawater desalination technology may be effective in addressing the tension in water demand. The reverse osmosis method is currently the most economical means of seawater and brackish water desalination. Reverse osmosis desalination method uses high pressure to make the water containing salt or contaminants flow to the semi-permeable membrane. The pores on the membrane allow water molecules to pass through, leaving salt and impurities behind, so as to achieve desalination or purification of sewage. This is the main lifeline for drinking water and industrial water in the Middle East, desert regions and island regions. The daily production of water desalinated by the use of reverse osmosis has reached 10 million tons, and this figure is expected to double again by 2015. However, a large amount of energy is also wasted in this process. At present, the most advanced reverse osmosis membrane desalinization rate is 99.8%, and only half of the desalination step has nearly half of the water flowing into the drainage system.
Another problem is membrane fouling. The cause of membrane fouling is that traditional pretreatment methods for reverse osmosis systems do not provide reliable inlet water quality, which allows many desalination plants to operate at much lower than their designed output. Nano reverse osmosis membranes are new technologies developed to solve the above problems. They will allow water molecules in aqueous solutions to pass under relatively low pressures, repel impurities and prevent them from adsorbing on the membrane surface, thereby saving energy and expenses. However, the technology is still in the laboratory stage, and the road to commercialization is not in sight.
Drainage pipe material also affects the effect of water treatment. Experts said that in the water conservancy industry, basically "the smaller the pipeline, the greater the profit." The municipal government's drainage pipeline has a small profit. How to reduce the cost of the drainage pipe and increase the water-passage rate has become a key technology urgently needed to be reformed. There is no “universal process†in the water treatment industry. In the pharmaceutical, semiconductor and other specialized industries, the water requirement is small, but the purity is very high. Therefore, the spearhead must be directed at the filtration equipment and use a more effective method than the conventional ultrafiltration membrane method. Technology to reduce pipeline fouling.
The end treatment of water resources must be combined with source control, and the level of water pollution cannot be increased due to the improvement of water treatment standards. The improvement of the water body index can not only reduce the burden of centralized treatment, but also ensure the centralized treatment of water quality. At present, there is a balance between emission standards and pollutant emission reduction in all countries, and efforts must be made to truly achieve clean production.
The issue of water resources should be put on the agenda both in technology and in the economic field. In this regard, mankind expects that technological innovation can change the fate of water, or it can be said to change the fate of mankind itself.
V-type high efficiency filter custom specifications are suitable for large air volume ventilation equipment, final filtration of power plants and front-end filtration of high efficiency and ultra-high efficiency ventilation systems, and for space-constrained ventilation systems.
High efficiency filter V type Notes.
1.On V-type high-efficiency filter with high air volume customization, the filtering efficiency is very different when different filter papers are selected.
2, the rated air volume is higher, and the grade above H11 is HEPA Filter. High efficiency filter with large air volume is characterized by large air volume that can be passed, and the rated air volume of standard filter of 595x595x292mm can reach about 3200m3/h when the face wind speed is 2. 7m/s. Extra attention should be paid when choosing whether to match the rated air volume to avoid non-essential consequences.
3. Such filters should be installed at the very end of the central air conditioner. As the Hepa Filter Paper needs to be waterproof, water on the filter may make the filter efficiency unstable. Therefore, such high air volume HEPA filters should avoid humid environment as far as possible.
4, in many occasions, high efficiency filter v type large air volume to interchange with bag type filter (reference: F8 bag type medium efficiency filter), compared with bag type filter, large air volume type filter occupies less space, but the price is also slightly higher, if customize this filter, you can consider replacing with bag type specification filter to save cost.
5. used filters with plastic frames can be incinerated, which is more conducive to environmental protection and saves the cost of filter waste disposal.
Air Filter is the key equipment in the purification and air conditioning system, through the filter's step-by-step filtration to provide clean air for the clean room, its performance directly affects the air purification effect of the purification and air conditioning system and the cleanliness level of the room, therefore, the purification and air conditioning system must choose the right air filter and ensure its reliable operation.
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