Guangzhou Chemxin Environmental Material Co.,Ltd
Natural Gas Drying
Make use of molecular sieve adsorption capacity for natural gas drying and purification devices, is widely used in natural gas extraction, transportation, filling and other links.The complete set of equipment consists of two parallel work of the drying tower and heater, circulating fan, cooler, filter composition. In addition to drying tower, regeneration tower switching requires manual operation, the rest of all actions by the device automatically, can also be designed to all automatic.
Wellhead outflow of the natural gas almost all saturated gas phase water, and even carry a certain amount of liquid water. The presence of moisture in natural gas often causes serious consequences: natural gas containing CO2 and H2S forms acid in the presence of water and corrodes the pipeline and equipment; forms gas hydrates under certain conditions to block valves, pipes and equipment; Reduce the pipeline transport capacity, resulting in unnecessary power consumption. The presence of moisture in the presence of natural gas is very unfavorable, so the need for dehydration is more stringent.
In natural gas processing, dehydration, desulfurization process can be used adsorption method. Especially the adsorption dehydration, because of its deep dewatering high, simple device, small footprint and so on.
The performance of the adsorbent is extremely important for the adsorption operation. Industrial adsorbents should meet the following requirements: High selectivity, large internal surface area, high adsorption activity, certain mechanical strength and physical properties, good chemical inertness, thermal stability As well as cheap and so easy.
Natural gas gas commonly used in the adsorbent: silica gel, activated alumina, activated bauxite and molecular sieve.
White Silica Gel
Orange Silica Gel
Blue Silica Gel
Activated alumina desiccant
Activated alumina adsorbent
3A Molecular Sieve
4A Molecular Sieve
5A Molecular Sieve
13X Molecular Sieve
13X-APG Molecular Sieve
Ethanol at room temperature and pressure is a flammable, volatile colorless transparent liquid, low toxicity, pure liquid can not be directly consumed; with a special flavor, and slightly stimulated; slightly sweet, and accompanied by stimulating spicy taste. Flammable, the vapor can form an explosive mixture with the air, with water to be more than miscible.
The importance of molecular sieves in ethanol purification:
Molecular sieve is a colorless, odorless, non-toxic new material, in the anhydrous ethanol preparation and other azeotropic mixture separation process without adding the third component, the production process almost no toxic waste emissions; , Cyclohexane and other highly toxic third components. Process is simple and reliable, excellent product quality, is an environmentally friendly, energy-saving technology.
The advantage is that it can reduce the installation height of the equipment, improve the effective adsorption capacity of the fixed bed and the quality stability of the finished product. The resulting waste gas, waste residue, waste liquid have a very good treatment.
Ethanol is widely used and can be used for:
Solvent; organic synthesis; crystallization of various compounds; detergent; extractant;
Consumption of alcohol can be blending liquor; used as a binder; nitro paint; varnish, cosmetics, ink, paint remover and other solvents and pesticides, pharmaceuticals, rubber, plastics, man-made fibers, detergents and other manufacturing materials, Antifreeze, fuel, disinfectant and so on.
75% of the ethanol solution is commonly used for medical disinfection.
3A Molecular Sieve
The most common methods for air separation are Air deep freezing, adsorption, membrane separation which is based on different physical properties of components in the air. It can isolate the oxygen and nitrogen from the air, or at the same time, extract rare gases such as helium and argon.
Air separation can produce oxygen, nitrogen and rare gases, and the gas products can be obtained with a purity of 98.0% ~ 99.9%. In addition, molecular sieve adsorption method is popular used to separate the air, which is used to make oxygen-rich air containing 80% ~ 95% of oxygen.
CHEMXIN13X-APG Molecular Sieve is an air separation special molecular sieve with higher adsorption capacity of carbon dioxide and water. It can avoid frozen tower phenomenon appeared in the process of air separation to meet the special requirements of air separation industry
Activated Alumina KA405 has many micro-paths and the specific surface is large. It can be used as absorbent, desiccant and widely used in the deep drying of cracked gas, ethylene and propylene, hydrogen-generation, air separation, instrument air drying.
5A Molecular Sieve
13X-APG Molecular Sieve
Paint, Resin, Adhesives
Chemxin Activated Molecular Sieve Powder is dehydrated synthetic powder molecular sieve. With the character of high dispersibility and rapid adsorbability. It is used in some special absorptive circumstances, such as being formless desiccant, being adsorbent mixed with other materials etc. It can remove water eliminate bubbles, increase uniformity and strength when being additive or base in paint, resin and some adhesives. It can also be used as desiccant in insulating glass rubber spacer.
3A Activated Molecular Sieve Powder
4A Activated Molecular Sieve Powder
5A Activated Molecular Sieve Powder
13X Activated Molecular Sieve Powder
Specific Molecular Sieve for Oxygen Generator
Special Oxygen Molecular Sieve was developed newly XH-type home or medical oxygen dedicated molecular sieve, with higher purity oxygen, faster and longer life. Such characteristics of molecular sieve is an important breakthrough in health care industry.
Oxygen production principle:
The compressor through pressure swing adsorption from air, pulling air into molecular sieve, molecualr sieve will adsorb nitrogen, carbon dioxide and other waste gas from air, only leaving oxygen into the gas cylinder. Then through high pressure valve for high pressure purification.In the last making purity of oxygen production up to standard and output oxygen.
13x-HP Molecular Sieve
Activated alumina ball used for high fluoride water fluoride agent, is a kind of molecular adsorbent with huge specific surface area.When raw water PH value and alkalinity is lower, fluoride in capacity is higher, more than 3.0 mg/g, low ratio of synthetic resin, can also be used for drinking water arsenic removal.
Fluorine removal agent
Particle size is relatively small make surface area is large, usually 1- 3 mm, commonly used with water has larger contact area.Specific surface area index as high as more than 160 m2 / g, a huge number of pores is to ensure the water fluoride ion has a strong adsorption capacity and high fluorine and arsenic removal capacity.Activated alumina fluoride (activated aluminum process for defluorinate) is to use activated alumina filter media adsorption, fluorine ion exchange, adsorption to remove fluoride from water.Activated alumina is white spherical porous particle, particle size uniform, smooth surface, mechanical strength, moisture absorption is strong, not expanding crack remains intact after water absorption, non-toxic, odorless, insoluble in water, ethanol, has very strong adsorption to fluorine, mainly used for high fluoride areas fluoride in drinking water.
PSA Nitrogen Generator
Carbon molecular sieve microporous has strong affinity for oxygen molecules, it’s usually used to separate the oxygen and nitrogen in the air, and for making nitrogen with pressure swing adsorption device (PSA) in industry.
CHEMXIN carbon molecular sieve is with large amount of nitrogen, high nitrogen recovery rate, long service life, it’s suitable for various types of pressure swing adsorption nitrogen machines, and it’s the preferred product of PSA system.
Introduction (molecular sieve nitrogen)
The smaller diameter gas (oxygen) diffuses faster, most of them has been adsorbed into the molecular sieve solid phase, so that to get more nitrogen. After a period of time, the adsorption of oxygen on the molecular sieve is balanced, according to the different adsorption capacity of the carbon molecular sieve at different pressures, reduce the pressure of the machine to remove the adsorption of oxygen, this process is called regeneration. Pressure swing adsorption method is usually used in parallel with the two columns, alternating pressure adsorption and decompression regeneration, in order to obtain a continuous nitrogen flow.
Molecular sieve nitrogen (advantage)
PSA nitrogen method is the rapid development of the seventies a new nitrogen technology. Compared with the traditional nitrogen method, it has a simple process, high degree of automation, fast gas production (15 to 30 minutes), low energy consumption, product purity can be adjusted in a large range according to user needs, easy operation and maintenance Low cost, strong adaptability and other characteristics of the device, so it’s competitive in the 1000Nm3 / h nitrogen equipment, more and more access to medium and small nitrogen users, PSA nitrogen has become the choice of medium and small nitrogen users.
Carbon molecular sieve and zeolite molecular sieve are widely used in the field of nitrogen, oxygen production . The molecular sieve separation of oxygen and nitrogen is mainly based on the difference diffusion rate of these two gases on the surface of the molecular sieve, carbon molecular sieve is a carbon-based adsorbent which combine activated carbon and some character of molecular sieve.
Carbon Molecular Sieve
Tower Packing Media
The packing tower has the advantages of large production capacity, high separation efficiency, small pressure drop, small holding capacity and high operational flexibility.
The packing material can make large gas and liquid contact surface, high transfer coefficient, large flux and low resistance. Therefore, it’s required that the packing layer has high porosity, large specific surface area, good surface wetability and close contact on structure to promote turbulence. Need corrosion resistance on the materials, and has a certain mechanical strength during manufacturing materials, so that the bottom of the filler layer not easy to pressure and fragmentation, deformation.
Commonly used tower packing can be divided into two categories: random packing and structured packing.
Plastic filler materials include: polyethylene (PE), polypropylene (PP), reinforced polypropylene (RPP), polyvinyl chloride (PVC), chlorinated polyvinyl chloride (CPVC) and polyvinylidene fluoride (PVDF). It has good corrosion resistance, large gap, large flux, low resistance, low energy consumption, low operating cost, light weight, easy handling, and can be reused. Particularly applicable to petroleum, chemical, chlor-alkali, gas, environmental protection and other industries in the low temperature (60-150 degrees) distillation, absorption and washing tower.
Plastic random packing
Including pall ring, saddle ring, super saddle ring, cascade ring, heilex ring, conjugate ring, teller rosette ring, hollow float ball, polyhedral hollow ball and liquid surface ball.
Ceramic packing has excellent resistance to acid and heat resistance, and can be used to resist various kinds of inorganic acid, organic acid and organic solvent other than fluorooxy acid. It is suitable for various high, low temperature and strong corrosive occasions. It can be used in chemical industry, metallurgy , Gas, oxygen and other industries drying tower, absorption tower, cooling towers, washing towers, such as regeneration towers.
Ceramic random packing
Including raschig ring, cross ring, pall ring, saddle ring, super intalox saddle ring, cascade ring, conjugate ring and other combination rings.
Metal packing materials include carbon steel and stainless steel. It is especially suitable for vacuum distillation tower, to handle the material which is sensitive of heat, easy to decompose, easy to polymerize and easy to convert carbon. Because of its thin wall, large porosity, low flux, low resistance, heat resistance, corrosion resistance and high separation efficiency. which are widely used in petrochemical, fertilizer, environmental protection and other industries in the packing tower.
Metal random packing including conjugate ring, inner arc ring, saddle ring, super rasching ring, super mini ring, cascade ring, pall ring and intalox saddle ring.
There are many types of tower equipment, tower equipment is chemical, petrochemical and oil refining one of the most important equipment. It can make gas between liquid and liquid between liquid, two-phase close contact to achieve the purpose of mass transfer and heat transfer in the tower equipment to complete the common unit operations are: distillation, absorption, desorption and extraction, etc. In addition, Gas cooling and recovery, gas wetting and drying, and both gas-liquid two-phase mass transfer, and the increase in heat transfer.
Inert Ceramic Ball