As we all know, Tianshan Mountain is the glacier farthest from the ocean in the world. It is a large mountain range in the eastern part of Central Asia, running through the central part of China and Xinjiang, with a height of 2 1900 feet. Tomur Peak is 7435.3 meters above sea level, Khan Tengger Peak is 6995 meters above sea level and Bogda Peak is 5445 meters above sea level. It is covered with snow all year round. Glacier No.1 was formed in the third glacial century, with a history of 4.8 million years. Due to the concentration of modern glaciers, glacial landforms and sediments are very typical, and ancient glacial remains are well preserved. 1 Glacier is known as "Glacier Living Fossil". You can see the ice erosion landscape such as mountainous valleys, rock ridges, rock basins, ice buckets and sheep backs. Glacier deposits of various periods are preserved in the valley above 2800 meters above sea level. The whole glacier has various shapes of "tongue-shaped glacier front", "pyramid-shaped ice mound" and "curved glacier terminal moraine" The water in Ensovo comes from Tianshan Mountain 1 Glacier in China. Natural water is polluted by microorganisms to varying degrees, while glaciers are not. The reason is that no microorganism can survive in the natural environment as low as MINUS 20 to 30 degrees Celsius. All its filling omits the disinfection process.

In fact, imported water from abroad is generally disinfected by ozone-free process, but the production cost is relatively high. Only a few domestic water enterprises use ozone-free technology. So why use an ozone-free process? In order to avoid the risk of cancer, ozone-free technology is adopted, because ozone will oxidize bromine ions beneficial to human body in water into bromate, which has long been assessed as a potential carcinogen of grade 2B by the International Health Organization, and will cause cancer if it is drunk for a long time.

Low deuterium itself is an important feature of glacier water. Low deuterium water with deuterium abundance of 25~30× 10-4atom% can be used as disease prevention water and drinking water. In the medical field, low deuterium water has a wide range of uses. Scientists in Europe, the United States, Japan and other countries have carried out relevant research, which proves that low deuterium water has the functions of activating immune cells, improving the basic metabolism level of the body, resisting cell mutation and delaying aging, and is beneficial to the survival, development and reproduction of various animal and plant life bodies, including people. Drinking low deuterium water can prevent diseases and protect health, especially for adjuvant treatment of some diseases such as cancer. It is a major breakthrough in the application research of low deuterium water in nuclear medicine and water physiology abroad in recent years.

The method of preventing and treating cancer with low deuterium water was first discovered by Hungarian doctor and molecular biologist Cigar Somlyag. On 1990, Somlyag began a large number of clinical studies on patients with cancer, diabetes and other diseases, revealing the molecular mechanism of anti-cancer effect of low-deuterium water, and found that low-deuterium water can inhibit the growth of tumor cells, limit the decomposition and replication of tumor cells, and eventually lead to the decline of tumor quality, and even complete extinction in some cases. It is a brand-new and original anti-cancer method. In the medical field, glacier water is widely used in the adjuvant treatment of cardiovascular diseases, diabetes and other diseases. The applied research of scientists in Japan and other countries also shows that in the field of beauty, glacier water is superior to any other beauty products except for its anti-cancer effect. Arge P of Hopkins Medical College discovered aquaporin on cell membrane, which solved the absorption mechanism of water by organisms, and further pointed out that the loss of aquaporin function was related to nephropathy and edema. This is an important discovery in the field of water physiology and won the Nobel Prize in Chemistry in 2003. At the same time, it is pointed out that only ordered and structured small molecular groups can enter cells and participate in the metabolism of material energy and information in human body. Low deuterium water is only an important feature of glacier water. Therefore, it is not an exaggeration to call Ensovo glacier water the water of life. However, glacier water is a non-renewable resource, and the amount of exploitation allowed by the state is very limited. Even an internationally renowned brand like Ensovo, its glacier water is rare in the domestic market except in developed countries such as Europe and America.