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Product Variety/Metal Content(%)/ Applicable Reaction |
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3 | 5 | 10 | 15 | 20 | 1.5 | 3 | 5 | 1 | 3 | 5 | 1/4 | 2/8 | ||
1 | Aromatic Saturation | |||||||||||||
2 | Ethyne reacts with hydrogen to form alkane | |||||||||||||
3 | Fatty aromatic acid reacts with hydrogen to form fatty aromatic alcohol | |||||||||||||
4 | Aromatic acid reacts with hydrogen to form aromatic alcohol | |||||||||||||
5 | Aromatic acid reacts with hydrogen to form fatty arene | |||||||||||||
6 | Aniline reacts with hydrogen to form cyclohexylamine | |||||||||||||
7 | Aniline reacts with hydrogen to form bicyclohexylamine | |||||||||||||
8 | Carbocycle arene reacts with hydrogen to form cycloparaffin | |||||||||||||
9 | Benzyl compound reacts with hydrogen to form arene | |||||||||||||
10 | Reductive alkylation | |||||||||||||
11 | Halogeno benzene reductive alkylation | |||||||||||||
12 | Halogenating nitryl-arene's alkylation | |||||||||||||
13 | Dehydrohalogenation of aliphatic and arotnatic halocompounds | |||||||||||||
14 | Hydrazone reacts with hydrogen to form hydrazine | |||||||||||||
15 | Imine reacts with hydrogen to form amine | |||||||||||||
16 | Aromatic ketones reacts with hydrogen to form aromatic alcohol | |||||||||||||
17 | Aromatic ketones reacts with hydrogen to form arene | |||||||||||||
18 | Liphatic nitrile reacts with hydrogen to form primary amine | |||||||||||||
19 | Liphatic nitrile reacts with hydrogen to form tertiary amine | |||||||||||||
20 | Aromatic nitrile reacts with hydrogen to form benzyl amine | |||||||||||||
21 | Aromatic nitrile reacts with hydrogen to form aromatic ketone | |||||||||||||
22 | Aromatic nitrile reacts with hydrogen to form dibenzylamine | |||||||||||||
23 | Nitryl aromatic compoumd reacts with hydrogen to form aniline | |||||||||||||
24 | Nitryl aromatic compoumd reacts with hydrogen to form aromatichydroxylamine | |||||||||||||
25 | Nitryl aromatic compoumd reacts with hydrogen to form amino phenol | |||||||||||||
26 | Nitroso aromatic compoumd reacts with hydrogen to form aniline | |||||||||||||
27 | Alkene reacts with hydrogen to form alkane | |||||||||||||
28 | Oxime reacts with hydrogen to form secondary amine | |||||||||||||
29 | Oxime reacts with hydrogen to form hydroxylamine | |||||||||||||
30 | Hydrogenation of Oxiranes | |||||||||||||
31 | Phenol reacts with hydrogen to form cyclohexanone | |||||||||||||
32 | Pyridine(pyridine) reacts with hydrogen to form piperidine | |||||||||||||
33 | Aromatic ketone reacts with hydrogen to form fatty alcohol | |||||||||||||
34 | Hydrogenation of Fatty Acids | |||||||||||||
35 | Hydroxylamine Synthesis | |||||||||||||
36 | Fatty ketone reacts with hydrogen to form fatty alcohol | |||||||||||||
37 | Vinyl halides compound's saturation | |||||||||||||
38 | Propenyl compound's saturation | |||||||||||||
Product Variety/Metal Content(%)/ Applicable Reaction Pd/C Pr/C Ru/C Pt-Pd/C 3 5 10 15 20 1.5 3 5 1 3 5 1/4 2/8 1 Aromatic Saturation 2 Ethyne reacts ...
Tech. spec. Appearance: brown clover-shaped Length(mm): 5-15 Pd content(%m/m): 0.3±0.03 Bulk density(Kg/L): 0.48-0.55 Production capacity[KgH2O2(100%...
Item Unit Quality Specification 1.Pd Content % 1-20 2.Loss on drying % 1-60 3.Activity % >95 4.Specific Surface Area mm/g >1000 5.PH value <8 6.Ash % ...
Item Unit Quality Standard Nickel Content % 40-50 Mesh Mesh 30-300 Sulphide % <0.005 Activity >95 Iron Content % Undetermined Chrome Content % ...
