PARTIAL OXIDATION OF METHANE IN LIQUID PHASE
Methane is a compound that is abundantly available in nature and has many potential benefits, among which is for conversion into methanol, a compound having higher economic value and widely used in the chemical and energy industries. The state of the art commercial technology for producing methan...
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id-itb.:508322020-09-25T14:16:50ZPARTIAL OXIDATION OF METHANE IN LIQUID PHASE Ramadhani, Aliya Indonesia Final Project Methane, Autoxidation, Catalysts, Cobalt, Manganese, Copper, Formic Acid. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/50832 Methane is a compound that is abundantly available in nature and has many potential benefits, among which is for conversion into methanol, a compound having higher economic value and widely used in the chemical and energy industries. The state of the art commercial technology for producing methanol from methane consumes large amount of energy as well as cost and, consequently, dictating a large minimum economic capacity and therefore making it unsuitable for producing methanol from biomass-based methane (or biogas). A process that imitate the way methanotrophic bacteria, through their methane monooxygenase (MMO) enzymes, oxidize methane into methanol at ambient temperature and pressure may be far cheaper and energy-saving. To prevent further oxidation into formaldehyde, formic acid and CO2, the methanol formed must be protected through, for example, direct esterification with carboxylic acid. After the ester formed is separated, methanol could be recovered via hydrolysis of the methyl carboxylate. The objective of the present research is to obtain a biomimetic oxidation process that convert methane into methyl formate using a catalyst in the form of combined Mn and Co acetate/formate solutions that have been successfully used in catalyzing acetaldehyde oxidation into acetic acid. The research just completed the stage of catalyst preparation and testing when COVID-19 pandemic occured, making further experimentation in the laboratory impossible. The results so far achieved from experimental laboratory activities showed that combinations of Mn-Co salts could not be used as methane oxidation catalysts, for they could not activate molecular oxygen unless in the presence of an additional peroxide-forming reactant. Instead, a complex manganic formate compound K2{Mn(H2O)2[Mn3O(OOCH)9]2} has been successfully prepared and appeared potential to become an autoxidation catalyst. A desk study carried out during the period of no further experimental activities indicated that biomimetic oxidation catalysts strongly recommended to be tested in a subsequential research is the salts of copper-manganese (Cu-Mn) metal pair. text |
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Methane is a compound that is abundantly available in nature and has many potential
benefits, among which is for conversion into methanol, a compound having higher
economic value and widely used in the chemical and energy industries. The state of the
art commercial technology for producing methanol from methane consumes large amount
of energy as well as cost and, consequently, dictating a large minimum economic capacity
and therefore making it unsuitable for producing methanol from biomass-based methane
(or biogas). A process that imitate the way methanotrophic bacteria, through their
methane monooxygenase (MMO) enzymes, oxidize methane into methanol at ambient
temperature and pressure may be far cheaper and energy-saving. To prevent further
oxidation into formaldehyde, formic acid and CO2, the methanol formed must be
protected through, for example, direct esterification with carboxylic acid. After the ester
formed is separated, methanol could be recovered via hydrolysis of the methyl
carboxylate.
The objective of the present research is to obtain a biomimetic oxidation process that
convert methane into methyl formate using a catalyst in the form of combined Mn and
Co acetate/formate solutions that have been successfully used in catalyzing acetaldehyde
oxidation into acetic acid. The research just completed the stage of catalyst preparation
and testing when COVID-19 pandemic occured, making further experimentation in the
laboratory impossible. The results so far achieved from experimental laboratory activities
showed that combinations of Mn-Co salts could not be used as methane oxidation
catalysts, for they could not activate molecular oxygen unless in the presence of an
additional peroxide-forming reactant. Instead, a complex manganic formate compound
K2{Mn(H2O)2[Mn3O(OOCH)9]2} has been successfully prepared and appeared potential
to become an autoxidation catalyst.
A desk study carried out during the period of no further experimental activities indicated
that biomimetic oxidation catalysts strongly recommended to be tested in a subsequential
research is the salts of copper-manganese (Cu-Mn) metal pair. |
| format |
Final Project |
| author |
Ramadhani, Aliya |
| spellingShingle |
Ramadhani, Aliya PARTIAL OXIDATION OF METHANE IN LIQUID PHASE |
| author_facet |
Ramadhani, Aliya |
| author_sort |
Ramadhani, Aliya |
| title |
PARTIAL OXIDATION OF METHANE IN LIQUID PHASE |
| title_short |
PARTIAL OXIDATION OF METHANE IN LIQUID PHASE |
| title_full |
PARTIAL OXIDATION OF METHANE IN LIQUID PHASE |
| title_fullStr |
PARTIAL OXIDATION OF METHANE IN LIQUID PHASE |
| title_full_unstemmed |
PARTIAL OXIDATION OF METHANE IN LIQUID PHASE |
| title_sort |
partial oxidation of methane in liquid phase |
| url |
https://digilib.itb.ac.id/gdl/view/50832 |
| _version_ |
1822272502649323520 |