Carbon Molecular Sieve (CMS) is a type of Granular Activated Carbon, which is widely used in many industrial and commercial applications. It can be used to separate different gases and liquids, including oxygen, nitrogen and other molecules. It is mainly composed of carbon and other materials, such as silicon dioxide, alumina and other minerals. Its black granular appearance and its low test temperature (≤ 20℃) makes it an ideal choice for many applications. Its stacking density (680-700G/L) and its fast adsorption time (2X50S) make it an appealing choice for many industries. Model CMS-220 is one of the most popular and widely used products of this type.
Carbon Molecular Sieve has been proven to be an effective and reliable tool for a wide range of applications. It is used for extraction of oxygen and nitrogen in air separation, for natural gas purification, and for drying of industrial gases. It has also been used in the production of ethylene and other chemicals, as well as for the removal of hydrogen sulphide and other contaminants from gases. The high adsorption capacity and fast adsorption time of Carbon Molecular Sieve make it an ideal choice for many applications.
Carbon Molecular Sieve is a highly efficient and cost-effective solution for many industries. It is easy to install and use, and can be used for many years with minimal maintenance. It is also very safe to use, as it does not contain any toxic materials or chemicals. Carbon Molecular Sieve can be used in various industries, including chemical, food processing, pharmaceutical, and many other industries.
Xi'an Lvneng's Carbon Molecular Sieve-220 is an advanced activated carbon product that can be used in a variety of applications, including air purification, water purification, and other separation processes. The Carbon Molecular Sieve-220 is certified by ISO9001:2008 and has a pore size of 2-3nm and a particle diameter of 1.1mm-1.2mm. It features a high adsorption rate and a low moisture content of ≤1.0%. This makes it suitable for a wide range of applications, such as air purification, water purification, waste water treatment, and other separation processes. The Carbon Molecular Sieve-220 is made from granular activated carbon pellets, which are highly porous and have excellent adsorption properties. The sieve can be used to effectively remove impurities from liquids or gases, and its adsorption time is twice as long as that of conventional activated carbon products. The Carbon Molecular Sieve-220 is also highly durable and can be used in a wide range of operating conditions.
Brand Name: Xi'an Lvneng
Model Number: Carbon Molecular Sieve-220
Place of Origin: Shaanxi,China
Adsorprion Time: 2X50S
Appearance: Black Granular
Stacking Density: 680-700G/L
Our carbon molecular sieve has high adsorption efficiency and fast adsorption speed, it has superior molecular sieve adsorption and activated carbon adsorption. The stacking density is 680-700G/L. Our product is certified with ISO9001:2008. The appearance is black granular.
Carbon Molecular Sieve (CMS) is usually shipped in a sealed container in order to protect its integrity during transport. The container must be able to withstand the elements of air, sea, and land transportation. Depending on the size of the shipment, the container may be a small box or a large drum. In addition, the container must be suitable for handling by forklift and manual lifting.
The container should also have sufficient padding materials to protect the CMS from any impacts during shipping. The packing material should be able to absorb shocks, vibrations, and moisture. The type of material used depends on the size, weight, and fragility of the product. For example, foam, bubble wrap, and corrugated cardboard are typically used for lightweight items.
Once the CMS is securely packed in the container, it is ready for shipment. Depending on the final destination, it may be shipped by air, land, or sea. Before shipping, the carrier must be informed of the contents of the package, including the weight, dimensions, and any hazardous substances.