PKU PIONEER is capable of producing 10,000 tons of absorbents each year, mainly including an efficient CO absorbent PU-1, an efficient oxygen-making absorbent PU-8, an efficient deoxidant PU-5, an efficient hydrogenation catalyst PU-7, an efficient CO2 absorbent PU-10, and an efficient H2 purification absorbent PU-12, etc. PKU PIONEER's absorbent products are exported to dozens of countries, including India, Spain, The Republic of Belarus, Thailand, Myanmar, Indonesia, the Philippines, South Korea, Zambia, The Kingdom of Bahrain, and Congo.
Efficient CO absorbent PU-1
PU-1 is a highly selective CuCl/molecular sieve absorbent loaded with Cu developed by PKU PIONEER that has a great absorption capacity of CO, as the core and basis of PSA CO technology.
In virtue of years of experience in the absorbent production, intensified product quality management, as well as continuous improvement and upgrading of absorbent production technology, the performance indexes of CO absorbent PU-1 produced by PKU PIONEER have reached a leading level in the world; moreover, the product quality is stable, which provides a reliable basis for meeting the design requirements of PSA CO device.
Efficient oxygen making absorbent PU-8
PU-8 is a lithium-based oxygen-making absorbent developed independently by PKU PIONEER. In 1999, PU-8 absorbent was regarded as the Key Project of China Torch Program by the Ministry of Science and Technology of China, and received the certificate of 2001 National New Products Program.
At normal temperatures and pressure, PU-8 has a higher absorption capacity of nitrogen than common absorbents, with a high separation coefficient. When the PU-8 oxygen making absorbent is applied to VPSA oxygen producing device, the oxygen product yield coefficient will be high, and the feed air to be handled and the nitrogen to be absorbed will be substantially less than those to be handled and absorbed when a common oxygen making absorbent is used. The loads on the air blower and the vacuum pump will be decreased, so will power consumption for the oxygen generation. The economic indicators of oxygen generating plant are raised effectively.
Efficient hydrogen making absorbent PU-12
PU-12 is a dedicated molecular sieve that has a special absorption capacity as the core of PSA-H2 technology. The composite molecular sieve made by traditional means (white powder with grain size 0.5-10.0 micrometer) is mixed into 15-20 percent of binder in line with the need of industrial application, making grains that possess a certain mechanical strength and shape a certain form. However, the introduced binder will reduce the content of effective molecular sieve and congest some of molecular sieve pores, thus lowering absorption capacity and adding to the diffusional limitation.
Cmmdity: Aluminum Fluride (Aluminium fluride) ther name: Aluminum trifluride Frmula:AlF3 M.W.:83.98 Prperties: The prduct is a white needle crystal r pwder. SP. GR. 2.8823.13g/ cm3, sublimatin temp. 1272Celsiur scale.Its slightly sluble in water and greatly sluble in HF liquid. The chemical prperty fr the high density aluminum fluride is very steady, but that cntains certain crystal water will be decmpsed int Al23 at high temperature with HF being released. Specificatin: grade chemical cmpsitin % Physical character F Al N2 Fe2342- P25 LI Bulk dity g/cm3 AF-0 61.0 31.5 0.30 0.10 0.06 0.10 0.03 0.5 1.5 AF-1 60.0 31.0 0.40 0.30 0.10 0.6 0.04 1.0 1.3 AF-2 58.0 29.0 2.8 0.30 0.12 1.0 0.04 5.5 0.7 AF-3 58.0 29.0 2.8 0.35 0.12 1.0 0.04 5.5 0.7 Uses: Its mainly used as an adjusting agent fr electrlyte in aluminum smelting by fused salt electrlysis, als in ceramic glaze, catalyst and flux f nnferrus metal metallurgy etc. Brief Intrductin f the Prductin Technics In the Hydrgen Fluride Reacting Furnace which is heated utside, Vitril reacts with Flurite t create the Hydrgen Fluride Gas and Anhydrus Fluride Plaster by heating in the prcess f prducing Aluminum Fluride, then the Hydrgen Fluride Gas react with dry Aluminium Hydrxide in Fluidized Bed t create t Aluminum Fluride and water. Packaging packed in wven PP bags with plastic film inside. Each bag has net weight f 25kgs, 50kgs, 500kgs and 1000kgs.
The independently-developed and produced PSA-CO adsorbent PU-1 was granted the Chinese, USA and Canadian patents. PU-1 has ultra-high adsorption capacity and selectivity for CO, which are the key features for PSA-CO technology which reaches the advanced level in the world. PKU PIONEER originates the high and low consumption PSA-CO technology based on PU-1 adsorbent, achieving the efficient separation of CO from nitrogen, methane and other components, which is of great importance for the carbonyl synthesis industry. This technology won the Second Prize for National Technology Invention. PKU PIONEEER has designed and constructed dozens of PSA-CO plants for the clients, and becomes the highest shares holder in market with the features including low cost of gas product, high purity, high yield, flexibility of feed gas, moderate operating conditions and easy load regulation , which brings much economic earning and market competitiveness to the user. Wide Applications PSA-CO technology is suitable for any CO-rich feed gas. High Purity and Recovery The high purity of CO products (up to 99.99%) and high recovery (80%-95%) ensure high-quality and low-cost CO gas product for downstream synthesis. Ranking 1st in Market Share PKU PIONEER builds most of the PSA-CO plants in China, and holds over 90% of market shares. Patented Adsorbent Patented PSA-CO adsorbent PU-1 is highly efficient for producing high-quality CO. Technical Applications PSA-CO technology of PKU PIONEER has been successfully applied in ethylene glycol, butyl alcohol, acetic acid, acetic anhydride, formic acid, oxalic acid, oxalacetate, dimethyl formamide, dimethyl carbonate, TDI and MDI. PKU PIONEER builds most of the PSA-CO plants in the world, including the world's largest PSA plant cluster (20,000Nm3/h of O2 product, 20,000Nm3/h of CO product and 40,000Nm3/h of H2 product), the world's first plant for purifying CO and H2 from calcium carbide exhaust, and the world's first plant for separating CO from blast furnace gas . PKU PIONEER has absolute leading advantages over the others and become the leading one in CO PSA industry.
Supplier: Psa and vpsa oxygen generation technology and equipment, gas separation adsorbent and catalyst, advanced and mature gas separation solutions for the chemical industry, iron and steel, nonferrous metallurgy, glass and glass fiber manufacturing, paper making, cement, refuse incineration and wastewater treatment, etc.
Services: Design and manufacture
Lithium acetate dihydrate Usage 1. For the separation of saturated and unsaturated fatty acids, organic reaction catalysts. 2. For the separation of saturated and unsaturated fatty acids; for the preparation of diuretics in pharmaceutical industry. 3. Raw materials for lithium ion batteries. 4. Mainly used as catalyst for organic reaction.
CAS : 79-09-4 HS Code : 2915501000 Packing: 20GP: 200kg drum(16ton/80drums) IBC 1000kg(20ton/20IBC) Application Propionic acid is an important chemical raw material. Propionic acid and its derivatives are widely used in the synthesis of tree esters, grain preservation, food and feed additives, spices. The earliest propionic acid was prepared by condensation and separation from the gas produced by charcoal manufacturing and coal coking. In the 1950s, foreign countries developed the process of producing acetic acid by oxidation of light hydrocarbons. The product contains about 10% (propionic acid), which is obtained after separation and purification. In addition to the hydrocarbon oxidation method, the United States also has the method of carbonylation of ethylene, CO and H2 to synthesize propionaldehyde and further oxidation to propionic acid. Due to the development of low-pressure carbonylation process with rhodium phosphine complex as catalyst, propionaldehyde oxidation method has developed rapidly in recent years. This method is superior to the traditional high-pressure method with carbonyl cobalt as catalyst. Propionic acid, also known as primary oleic acid, is a short chain saturated fatty acid with the chemical formula ch3ch2cooh. Propionic acid is a colorless, corrosive liquid with pungent smell.
Calcium carbide is an inorganic compound, white crystal, industrial products are gray black blocks, cross-section purple or gray. It reacts violently with water, forming acetylene and releasing heat. Calcium carbide is an important basic chemical raw material, mainly used to produce acetylene gas. Also used in organic synthesis, oxyacetylene welding and so on. It is called calcium carbide( CaC2). It is a hard lump and the cross section is dark grey or brown. 2. It is lumpy substance, its surface is a little deep gray, has slight nasty smell. 3. It can produce acetylene gas when met water, it can burn when meets fire. 4.The acetylene gas mix with air will form explosive gas (explosive range of acetylene gas in the air is 2.3% - 81%). 1.The main raw material for producing acetylene gas. 2.Cutting and welding for metal material. synthesize polyvinyl chloride(PVC). 4.Fruit catalyst. 5.The basic material for organic synthesis and calcium cyanamide 6.Reacting with water to bring about ethine. 7. Reacting with nitrogen to product lime nitrogen. 8.The desulfurizer in steel industry.
The aqueous solution of hydrogen fluoride gas is a clear, colorless, fuming corrosive liquid with a strong pungent odor, easily soluble in water and ethanol, and slightly soluble in ether. Hydrofluoric acid is a weak acid with strong corrosiveness, which can strongly corrode metal, glass and silicon-containing objects. It is generally produced in laboratories with fluorite (mainly composed of calcium fluoride) and concentrated sulfuric acid. It needs sealed in a plastic bottle. The chemical industry is used to produce organic and inorganic fluorides (such as potassium fluoride, magnesium fluoride, uranium hexafluoride, calcium fluoride helium, fluororesin, fluoroplastic, fluororubber), dye synthesis, organic synthesis catalyst, and flame-retardant agent etc. In glass processing and production, it is used for frosted bulbs and general bulb treatment, glassware polishing, glass instrument scales, glassware and mirror engraving and lettering. As a cleaning agent for pickling of metal surfaces such as stainless steel. Used in the atomic energy industry, for the production of elemental fluorine and fluorides, and also as catalysts and fluorinating agents.
CAS 124-07-9 HS code 2917120001 25kg plastic woven bags or 900kg plastic woven bags Oxalic Acid 99.6%min. Specification: PURITY: 99.6% min. SULPHATE: 0.08% max. HEAVY METALS(Pb): 0.001% max. FERROUS (Fe): 0.0015% max. CHLORIDE: 0.003% max. IGNITION RESIDUE: 0.08% max. 99.6% min Oxalic Acid h2c2o4.2H2O technical standard 99.6% min Oxalic Acid Usage: 1. In Metallurgy industry: as precipitating and separating function for Rare-earth metal. 2. In industry: 99.6% min Oxalic Acid used in Tetracycline, Oxytetracycline, Phenobarbital, and Borneol, etc. 3. In Dyeing and printing industry: as reducing agent for dyeing and printing industry, as bleaching agent for textile, substitute for Acetic acid, as coloring mordant for fast pigment dyestuff. 4. In organic synthetic: 99.6% min Oxalic Acid used in 2133 resin, Urea-formaldehyde molding powder, Butadiene catalyst, etc. 5. In electron industry: preparation of chemicals raw material for porcelain capacitor, preparation of electron equipment detergent. 6.In Light industry: polishing for Marble, rust-remover, bleaching, dirt-remover, leather-remover. bleaching.
Cms specificaiton: 1. Cylindrical diameter: 1.0mm, 1.3mm, 1.5mm, 2.0mm. (also can produce according to requirement if volume is ok) 2. Appearance: black column 3. Diameter height ratio: 1:1.5~3 5. Crushing strength: > 100n/p min 6. Dust level: 99% 8. Packing: 20kg/40kg plastic drums 9. Bulk density: 660-700g/l 25kg plastic drum
