High-temperature sintering method is used to prepare Z205 thermo-stable
agent.because with it small amounts of nickel as the active component
and alumina as the carrier, It can support Z204 work as the
thermo-stable agents of high temperature resistance which are applied to
top of the secondary reformer in large or medium-scale ammonia plant.
The main performance of Z205 thermo-stable agent is proper to specific
operating environment and situation on top of the secondary reformer,
and is more resistant to heat and be washed out by air current.
Wednesday, October 23, 2013
Tuesday, October 22, 2013
About CNF-1 catalyst
CNF-1 is a new type catalyst composed of copper, zinc and aluminum etc.
oxides with copper as the active component, it bears high-active and
sound selective traits for reforming of methanol steam to hydrogen and
carbon dioxide.
About OBA CPN
Technical Index:
Appearance: yellow-green translucent liquid
Ionic character: anionic
Solubility: dilutable in water
pH(1% aqueous solution) 7.0±1.0
Fluorescence strength 115-125
Application field :
OBA CPN is mainly used as brightener of nylon 6, nylon 66, cellulosic fiber, nylon/cellulose blends.
Application Process :
1. Exhausting process
dosage: 0.6~5.0%(o.w.f)
pH: 4.0~6.0
L/R: 1:5~20
temperature: 70~110°C (nylon 6), 90~110°C (nylon 66)
2.Pad process:
(1)Thermosol process: 5~40g/L
Thermosol (190°C X20s for nylon 6 and 200 °C X20s for nylon 66).
(2)Pad-steam process:
Pad liquor concentration: 1~40g/L
Pad-steam: treated with saturated steam( 102°C ) for 3~5min, then rinsing.
Package & Storage :
Packed in plastic drum of 120kgs, Can be stored for 6 months under room temperature and hermetic condition.
More about OBA CPN
Appearance: yellow-green translucent liquid
Ionic character: anionic
Solubility: dilutable in water
pH(1% aqueous solution) 7.0±1.0
Fluorescence strength 115-125
Application field :
OBA CPN is mainly used as brightener of nylon 6, nylon 66, cellulosic fiber, nylon/cellulose blends.
Application Process :
1. Exhausting process
dosage: 0.6~5.0%(o.w.f)
pH: 4.0~6.0
L/R: 1:5~20
temperature: 70~110°C (nylon 6), 90~110°C (nylon 66)
2.Pad process:
(1)Thermosol process: 5~40g/L
Thermosol (190°C X20s for nylon 6 and 200 °C X20s for nylon 66).
(2)Pad-steam process:
Pad liquor concentration: 1~40g/L
Pad-steam: treated with saturated steam( 102°C ) for 3~5min, then rinsing.
Package & Storage :
Packed in plastic drum of 120kgs, Can be stored for 6 months under room temperature and hermetic condition.
More about OBA CPN
Monday, October 21, 2013
Features about Water and Oil Repellent TG-410C
Water and Oil Repellent TG-410C Features: TG-410C is a water and oil repellent for initial water repellency.. TG-410C keeps an original touch of fabric.. TG-410C is non-flammable.. It is one kind of environment-friendly water and oil repellent, free of APEO.Typical properties:Appearance: Off white emulsionIon Characterstics: Weak CationicpH: 2.5~3.5Specific gravity at 25°C : 1.04Typical Analysis: 18.0% Solids3.5% Dipropylene glycol monomethy1 ether0.4% Acetic acid78.1% WaterSolubility: Readily dissolves in waterShipping & storage: Non-red LabelTG-410C should be stored at the temperatures between 0°C and 40°C .Application guide for TG-410CA) Standard recipe1. Pad formulationsSubstrate concentrationCotton 30-50g/LPolyester/cotton 15-25g/LPolyester 5-10g/LNylon 20-30g/L 2. 1 dipping and 1 nipping (wet pick up of 40-70%) are suggested. 3. Dry and cure conditionsDrying: 80-100°C for 1-2 minCuring: 150-160 °C for 0.5-1 min B) Durable recipe1. For Polyester, NylonTG-410C 25-50g/LMelamine*resin 3g/L *ex.Trimethylol melamineAccelerator 1g/L 1 dipping and 1 nippingWet pick up 40-70%Drying: 80-100 °C for 1-2 minCuring: 150-160 °C for 0.5-1 min 2. For Cotton, Cotton/polyester Blend"TG-410C 30-80g/LBlocked isocyanate** 10-30g/LCatalyst 0-1g/L 1 dipping and 1 nippingWet pick up 50-70%Drying: 80-100°C for 1-2 minCuring: 150-160°C for 0.5-1 min **ex. BN-69, MDI bis(2-gutanone oxime) adductBN-11, HDI isocyanurate tris(2-gutanone oxime) adductSC-940, MDI bis(2-butanone oxime) adduct Note:. Keep the pH range of padding bath at 3-7 to obtain maximum water and Oil repellency. If it changes to over 8, please add some quantities of acetic acid. When fugitive wetting agent is used, it is essential that the alcohol must be thoroughly dissolved and dilute before any other bath components are added. Water and Oil Repellent TG-410C Package & Storage:
Packed in iron drum net 60kgs lined with plastic drum, can be stored for one year under room temperature.
About Z107B sintering natural gas steam reforming catalyst
Z107B sintering natural gas steam reforming catalyst mainly applies to primary
steam reforming and hydrogen production device in which methane being
the main part and gaseous hydrocarbon acting as the raw material in
synthetic ammonia plant. Z107B sintering natural gas steam reforming catalyst is a nickel-based catalysts for the conversion of active components, sintered alumina as the carrier gas steam reforming catalyst. Mainly used for methane as the main raw materials of all gaseous hydrocarbons into ammonia plant and a steam reforming hydrogen plant.
Z111 Series reforming catalyst is nickel as active component, alumina as the carrier, en earth oxide catalyst for hydrocarbon steam reforming of sintered gaseous energy-efficient catalyst. Typically used in low-water-carbon ratio of the ammonia plant operating under a steam reforming reaction tube of the upper furnace.
Z111 Series Appearance grayish black Raschig ring, five bars and seven-hole wheel-shaped flower plate. Raschig ring are: Short: 16 × 6 × 8 (for the tube into the upper part); long: 16 × 6 × 16 (for the tube into the lower part); thin-walled type: 16 × 16 × 9; porous double Head cylindrical arc are: Short: 16 × 9 × 3.5 (upper tube for conversion); long: 16 × 16 × 3.5 (for converting the lower tube); long and short cylindrical flower plate are: Short: 16 × 8 × 3.5 (for the tube into the upper part); long: 16 × 16 × 3.5 (for the tube into the lower part). According to customer request other size or shape of the catalyst. Bulk density: 0.7 ~ 1.20kg / L; chemical composition: NiO: ≥ 14%; SiO2 ≤ 0.20%; burning weight loss <5%.
Z111 Series reforming catalyst is nickel as active component, alumina as the carrier, en earth oxide catalyst for hydrocarbon steam reforming of sintered gaseous energy-efficient catalyst. Typically used in low-water-carbon ratio of the ammonia plant operating under a steam reforming reaction tube of the upper furnace.
Z111 Series Appearance grayish black Raschig ring, five bars and seven-hole wheel-shaped flower plate. Raschig ring are: Short: 16 × 6 × 8 (for the tube into the upper part); long: 16 × 6 × 16 (for the tube into the lower part); thin-walled type: 16 × 16 × 9; porous double Head cylindrical arc are: Short: 16 × 9 × 3.5 (upper tube for conversion); long: 16 × 16 × 3.5 (for converting the lower tube); long and short cylindrical flower plate are: Short: 16 × 8 × 3.5 (for the tube into the upper part); long: 16 × 16 × 3.5 (for the tube into the lower part). According to customer request other size or shape of the catalyst. Bulk density: 0.7 ~ 1.20kg / L; chemical composition: NiO: ≥ 14%; SiO2 ≤ 0.20%; burning weight loss <5%.
Friday, October 18, 2013
About Z111 series sintering energy-saving gaseous hydrocarbon steam reforming catalyst
With nickel as the active component, alumina as the carrier, and rare earth oxide as the co-catalyst, Z111 series sintering energy-saving gaseous hydrocarbon steam reforming catalyst generally applies to the upper part of the reaction vessel of the primary steam reformer in synthetic ammonia plant which is operated under low water-carbon ratio occasions.
About Z204 bonding reforming catalyst
With nickel as the active component and alumina as the carrier, Z204 bonding reforming catalyst is mainly used in secondary reformer in which methane being the main part and gaseous hydrocarbon acting as the raw material in synthetic ammonia plant, and the secondary reformer with light distillate oil as the raw material in oil nozzle factory.
Thursday, October 17, 2013
About CN-19 sintering reforming catalyst
With nickel as the active component, alumina and
calcium aluminate as the carrier, CN-19 sintering reforming catalyst is
applicable for the transformation of hydrocarbon steam to produce syngas
secondary reformer, and producing syngas device through partial
oxidation and intermittent reforming methods which take gaseous
hydrocarbon as raw material.
About CN-20 sintering natural gas secondary reforming catalyst
With nickel as the active component, CN-20 sintering natural gas secondary reforming catalyst is used in secondary reforming device which
taking natural gas, oilfield associated gas and light oil as raw
materials in ammonia plant.
Wednesday, October 16, 2013
About CN-29 sintering gaseous hydrocarbon steam reforming catalyst
Product name: CN-29 sintering gaseous hydrocarbon steam reforming catalyst
Category: Reforming Catalyst of Heavy Hydrocarbons Resistant
Description: With nickel as the active component, alumina as the carrier, and alkaline oxides as the co-catalyst, CN-29 sintering gaseous hydrocarbon steam reforming catalyst is generally used in primary steam reforming operated under low water-carbon ratio occasions, and is also applicable for steam reformer with small amount of high-carbon saturated hydrocarbon as raw material to transform hydrocarbon compounds into syngas.
Category: Reforming Catalyst of Heavy Hydrocarbons Resistant
Description: With nickel as the active component, alumina as the carrier, and alkaline oxides as the co-catalyst, CN-29 sintering gaseous hydrocarbon steam reforming catalyst is generally used in primary steam reforming operated under low water-carbon ratio occasions, and is also applicable for steam reformer with small amount of high-carbon saturated hydrocarbon as raw material to transform hydrocarbon compounds into syngas.
About Z107B sintering natural gas steam reforming catalyst
Product name: Z107B sintering natural gas steam reforming catalyst
Category: Thin-walled and Ring-shaped Catalyst for Energy-saving Synthetic Ammonia Primary Reformer with Low-resistance
Description: With nickel as the active component and alumina as the carrier, Z107B sintering natural gas steam reforming catalyst mainly applies to primary steam reforming and hydrogen production device in which methane being the main part and gaseous hydrocarbon acting as the raw material in synthetic ammonia plant.
Category: Thin-walled and Ring-shaped Catalyst for Energy-saving Synthetic Ammonia Primary Reformer with Low-resistance
Description: With nickel as the active component and alumina as the carrier, Z107B sintering natural gas steam reforming catalyst mainly applies to primary steam reforming and hydrogen production device in which methane being the main part and gaseous hydrocarbon acting as the raw material in synthetic ammonia plant.
Tuesday, October 15, 2013
About CNS-1 catalyst for COS hydrolysis
CNS-1 catalyst for COS hydrolysis is prepared by
partial oxidation of coal, tar etc. raw materials. COS, mainly acting as
organic sulfur, always co-exists with sulfureted hydrogen, whose
content depends on the sulfur content of raw materials and the
processing conditions of partial oxidation. Being neutral or weak acid,
COS is difficult to be removed by conventional desulfurizastion,
resulting in a series of troubles on subsequent operating procedures or
products qualities caused by reacted H2S and remained COS. Seeking for a
efficient, simple & convenient catalyst and method to remove COS is
a problem need to be solved urgently of the factory (especially
methanol f/actory). CNS-1 hydrolysis catalyst is specially researched for the purpose of fine desulfurization of COS./
About XNC-98 catalyst
Bearing high active and high selective
characteristics, XNC-98 catalyst is a newly researched and developed
product by the company, which is used to synthesize methanol by carbon
oxides and hydrogen under low temperature and pressure occasions. XNC-98 catalyst may
apply to various types of methanol synthesizers as well.
Monday, October 14, 2013
About MF-2 Reforming-Absorptive Compound Desulfurizer
MF-2 Reforming-Absorption Compound Desulfurizer is a kind of solid
desulfurizer used for removal of free sulfur or sulfur compounds in
fuel, raw materials and other materials .With special activated charcoal
and alkaline compounds as carrier or active components and adding a
variety of composite promoting agents , MF-2 Reforming-Absorption Compound Desulfurizer is mainly used for desulphurization of exhaust gas
in oil, chemical industry, coal and gas chemical industry, such as
synthetic ammonia, methanol and fuel gas.
About CNW-1 copper-based multi-oxides catalyst
CNW-1 copper-based multi-oxides catalyst have some features as follows : featuring high-active, sound selective, good heat stability and long life service etc. characteristics, CNW-1, the copper-based multi-oxides catalyst is used for gas-phase synthesis of N-methylaniline from aniline and methanol.
Saturday, October 12, 2013
About CN-16 series sintering reforming catalyst
With nickel as the active component and alumina as the
carrier, CN-16 series sintering reforming catalyst is mainly used in
primary steam reforming device in which methane being the main part and
gaseous hydrocarbon acting as the raw material (natural gas and oil
field gas etc.), the shape of which is produced according to Chinese
Patent No.86209669 our company has obtained.
About CN-8 extruding sintering reforming catalyst
With nickel as the active component and alumina as the carrier, CN-8 extruding sintering reforming catalyst is mainly used in the preparation
of ammonia or methanol syngas from partially oxidated of natural gas
and light hydrocarbon, and can be applied to produce reduction gas and
protective gas as well.
Friday, October 11, 2013
CN-32 low alkalization primary steam reforming catalyst
With nickel as the active component, alumina as the carrier, and
alkaline oxides as the co-catalyst, CN-32 low alkalization primary steam reforming catalyst is a kind of sintering gaseous hydrocarbon steam
reforming catalyst which is generally used in the upper part of primary
steam reformer (or called reforming furnace) with methane-rich gas as
raw material to produce ammonia, methanol, hydrogen or city coal gas.
The methane-rich gas, which has small amount of high-carbon hydrocarbon,
is produced after the pre-reforming technology process of tail gas in
refinery, natural gas, oilfield associated gas and light naphtha.
CN-29 sintering gaseous hydrocarbon steam reforming catalyst
With nickel as the active component, alumina as the carrier, and
alkaline oxides as the co-catalyst, CN-29 sintering gaseous hydrocarbon steam reforming catalyst is generally used in primary steam reforming
operated under low water-carbon ratio occasions, and is also applicable
for steam reformer with small amount of high-carbon saturated
hydrocarbon as raw material to transform hydrocarbon compounds into
syngas.
Thursday, October 10, 2013
About CN-23 gaseous hydrocarbon steam reforming catalyst
About CN-23 gaseous hydrocarbon steam reforming catalyst,With nickel as the active component, alumina as the
carrier, and rare earth oxide as the co-catalyst, CN-23 gaseous
hydrocarbon steam reforming catalyst applies to the heat exchanged
reformer in synthetic ammonia plant.
About CN-28 sintering gaseous hydrocarbon steam reforming catalyst
About CN-28 sintering gaseous hydrocarbon steam reforming catalyst,With nickel as the active component, alumina as the carrier, and
alkaline oxides as the co-catalyst, CN-28 sintering gaseous hydrocarbon
steam reforming catalyst is generally used in the process of
pre-reforming technology of light oil (naphtha); the steam reformer,
with most methane and small amount of high-carbon saturated hydrocarbon
as raw materials, will produce hydrogen-making raw gas which is enriched
with hydrogen gas by transforming methane etc. hydrocarbon.
Wednesday, October 9, 2013
XNC-98 catalyst
earing high active and high selective
characteristics, XNC-98 catalyst is a newly researched and developed product by
the company, which is used to synthesize methanol by carbon oxides and hydrogen
under low temperature and pressure occasions. It may apply to various types of
methanol synthesizers as well.
Under the
pressure range of 4~8 MPa, the space velocity from 7000 h-1 to 13000 h-1 and
the synthesis temperature from 200℃ to 260℃, the fine grain XNC-98 catalyst was used to investigate the intrinsic kinetics of
methanol synthesis in an isothermal integral reactor.
CNT-1 catalyst
CNT-1 is a new type catalyst composed of
copper, zinc and aluminum etc. oxides with copper as the active component, it
bears high-active and sound selective traits for dehydrogenation of methanol to
methyl formate.
CNT-1`s Application : Formic acid methyl ester is mainly used
for the production of formamide, N - methyl formamide, N, N - two DMF, N
N-formylmorpholine and formic acid. It could also be used as quick dry solvent
because of its low vapour pressure. It could also be used as pesticide,
germicide, intermediary for the combination of medical and pesticide as well as
fumigant for grains, fruit and tobaccos. Formic acid methyl ester could also be
used for the production of carbon monoxide. It is used as substitute for CFC,
HCFC and HFCs, a kind of blowing gent for foam materials (the foreign brand is
Ecomate) which would not do damage to the ozone nor cause greenhouse effect.
Properties: CNT-1 formic acid methyl ester catalyst has long service life and
active mode. The formic acid methyl ester that the product catalyzes is ≥ 85%
Tuesday, October 8, 2013
CNT-1 catalyst
CNT-1 catalyst is used for dehydrogenation of methanol with a long service life, high activity, high selectivity, and low bulk density. In the generation of methyl format through the catalytic dehydrogenation of methanol, selectivity of the catalyst is not less than 85 percent
CNT-1 is a new type catalyst composed of copper, zinc and aluminum etc. oxides with copper as the active component, it bears high-active and sound selective traits for dehydrogenation of methanol to methyl formate.
CNT-1 is a new type catalyst composed of copper, zinc and aluminum etc. oxides with copper as the active component, it bears high-active and sound selective traits for dehydrogenation of methanol to methyl formate.
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