-
Honeycomb Ceramic for RTO/RCO
Advantages
● Varity of materials & specifications
● Large specific surface area
● Small resistance loss
● Low abrasion loss
● Low thermal expansion coefficient
● High water absorption
● Outstanding crack-resistance
-
Honeycomb Ceramic Regenerator
Product Characteristics
● High temperature resistance, corrosion resistance, good thermal shock resistance, high strength, large heat storage capacity, good thermal conductivity, etc. and the energy saving effect and the service life are greatly improved.
Product Application
● Widely used in all kinds of heating furnace, hot blast furnace, heat treatment furnace, cracking furnace, baking equipment, melting furnace, soaking furnace, oil and gas boiler furnace in iron and steel industry, building materials industry, chemical industry, petrochemical industry, paint industry, non-ferrous metal smelting industry.
-
Honeycomb Ceramic Regenerator
1. Product Models: Model 160, Model 180, Model 200
2. Product Specification: 305*305*101mm, 101*101*101mm
Application Scope
RTO equipment is manily used to deal with volatile organic compounds (VOC). Typical organic waste gases include hydorcarbons, aromatic hydrocarbons, alcohols, ketones, aldehydes, ethers, phenols, esters, nitriles and their derivatives. It is widely used in chemical industry, automobile paint, spray drying equipment, organic chemical industry, petroleum chemical industry, block printing, offset printing, food processing and other fields.
-
Catalyst Bed Support Inert Ceramic Alumina Packing Ball
XINGFENG 17% Ceramic ball are the most widely used support media in the world because of their excellent consistence and reliability. Products to these specifications are manufactured from very high quality chemical-porcelain clay materials, which has quite excellent stability, high mechanical strength and resistance to thermal shock, This makes them all ideal choice for support of all types of catalyst.
-
Activated Aluminum Oxide 1-3mm Alumina Spheres
Activated alumina has much micro-paths, so the specific surface is large. It can be used as absorbent desiccant and catalyst carrier. It is also a kind of trace water desiccant and the pole-molecular absorbent, according to the absorbed molecular polarization, the attachment force is strong for water, oxide, acetic acid, alkali etc.
-
Activated Alumina Oxide Ball for Catalyst Carrier
As a catalyst, activated alumina is most well known for its role as a Claus catalyst; activated alumina is the most commonly used Claus catalyst in sulfur recovery endeavors at oil and gas refineries. Due to its capabilities as an adsorbent, desiccant, and catalyst, activated alumina is a valuable tool in many industrial process settings.
-
Activated Alumina Ball Desiccant Moisture Adsorbent
Activated alumina has much micro-paths, so the specific surface is large. It can be used as absorbent desiccant and catalyst carrier. It is also a kind of trace water desiccant and the pole-molecular absorbent, according to the absorbed molecular polarization, the attachment force is strong for water, oxide, acetic acid, alkali etc.
-
CMS240 Carbon Molecular Sieve PSA Nitrogen Adsorption
Nitrogen generation by Pressure Swing Adsorption (PSA) process is a technology used to separate nitrogen from a mixture of gases under pressure according to the special selective adsorption characteristics of the Carbon Molecular Sieves (CMS).
The Carbon molecular sieve is a material containing tiny pores of a precise and uniform size that is used as an adsorbent for gases. When the pressure is high enough, the oxygen molecules, which pass through the pores of CMS much faster than the nitrogen molecules, are adsorbed, while the coming out nitrogen molecules will be enriched in gas phase. The enriched oxygen air, adsorbed by the CMS, will be released by reducing the pressure. Then the CMS is regenerated and ready for another cycle of producing nitrogen enriched air.
-
Zeolite Molecular Sieve 4A Desiccant for Moisture Adsorbent
Molecular Sieve type 4A is an alkali alumino silicate; it is the sodium form of the Type A crystal structure. 4A molecular sieve has an effective pore opening of about 4 angstroms (0.4nm). XINGFENG type 4A molecular sieve will adsorb most molecules with a kinetic diameter of less than 4 angstroms and exclude those larger. Such adsorbable molecules include simple gas molecules such as oxygen, nitrogen, carbon dioxyde and straight chain hydrocarbons. Branched chain hydrocarbons and aromatics are excluded.
-
PSA Nitrogen Adsorption Carbon Molecular Sieve CMS-260
Nitrogen generation by Pressure Swing Adsorption (PSA) process is a technology used to separate nitrogen from a mixture of gases under pressure according to the special selective adsorption characteristics of the Carbon Molecular Sieves (CMS).
The Carbon molecular sieve is a material containing tiny pores of a precise and uniform size that is used as an adsorbent for gases. When the pressure is high enough, the oxygen molecules, which pass through the pores of CMS much faster than the nitrogen molecules, are adsorbed, while the coming out nitrogen molecules will be enriched in gas phase. The enriched oxygen air, adsorbed by the CMS, will be released by reducing the pressure. Then the CMS is regenerated and ready for another cycle of producing nitrogen enriched air.
-
PSA Oxygen-Rich Molecular Sieve
PSA Oxygen-Rich molecular sieve have high nitrogen oxygen separation properties and sufficient oxygen production rate. Due to its special preparation technology, it has excellent adsorption and desorption capacity.It is mainly used in the pressure swing adsorption oxygen production process of pressure adsorption and atmospheric analysis. It has a high nitrogen adsorption capacity and an excellent nitrogen and oxygen separation coefficient.
-
Molecular Sieve 4A Desiccant Moisture Adsorbent
Molecular Sieve type 4A is an alkali alumino silicate; it is the sodium form of the Type A crystal structure. 4A molecular sieve has an effective pore opening of about 4 angstroms (0.4nm). XINGFENG type 4A molecular sieve will adsorb most molecules with a kinetic diameter of less than 4 angstroms and exclude those larger. Such adsorbable molecules include simple gas molecules such as oxygen, nitrogen, carbon dioxyde and straight chain hydrocarbons. Branched chain hydrocarbons and aromatics are excluded.
