Thermal Study of MgH2 With Activated Carbon & Nb2O5 Addition as Hydrogen Storage Materal
Magnesium hidride, MgH2 is known to be the most promising hydrogen storage material due to its big theoretical hydrogen content (7.6 mass%). Thermal study of various MgH2 – Activated Carbon – Nb2O5 has been done. Mixtures of MgH2 – Activated Carbon – Nb2O5 was prepared with ball milling process for...
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id-itb.:322042018-12-05T10:38:12ZThermal Study of MgH2 With Activated Carbon & Nb2O5 Addition as Hydrogen Storage Materal Suryadi, Martin Kimia Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/32204 Magnesium hidride, MgH2 is known to be the most promising hydrogen storage material due to its big theoretical hydrogen content (7.6 mass%). Thermal study of various MgH2 – Activated Carbon – Nb2O5 has been done. Mixtures of MgH2 – Activated Carbon – Nb2O5 was prepared with ball milling process for 2 hours at 300 rpm in atmospheric condition with ball to mass ratio 40:1. The mixtures were analyzed using X-Ray Diffraction to identified the changing in its phase, and cristalinity. Thermogravimetry – Differential Scanning Calorimetry (TG-DSC) was used to determine the thermal characteristic like decomposition of materials, desorption temperature, and the temperature of the changing phase. The addition of 0.5 mol% Nb2O5 to MgH2 can decrease the desorption temperature about 79 oC compared to MgH2 desorption temperature (466 oC). The addition of 2 mol% activated carbon can decrease the desorption temperature about 66oC. Combination of MgH2 – Activated Carbon – Nb2O5 with composition (mol%) 97.5 : 2 : 0.5 and 96 : 3.5 : 0.5 show the desorption temperature at 399 oC and 413 oC. The activation energy for both mixtures, based on Kissinger’s Plot, are 131 kJ/mol ang 88 kJ/mol, which are lower than MgH2 without any addition (206 kJ/mol). The mixtures of MgH2 – Activated Carbon – Nb2O5 can have hydrogen content up to 4%. text |
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Kimia Suryadi, Martin Thermal Study of MgH2 With Activated Carbon & Nb2O5 Addition as Hydrogen Storage Materal |
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Magnesium hidride, MgH2 is known to be the most promising hydrogen storage material due to its big theoretical hydrogen content (7.6 mass%). Thermal study of various MgH2 – Activated Carbon – Nb2O5 has been done. Mixtures of MgH2 – Activated Carbon – Nb2O5 was prepared with ball milling process for 2 hours at 300 rpm in atmospheric condition with ball to mass ratio 40:1. The mixtures were analyzed using X-Ray Diffraction to identified the changing in its phase, and cristalinity. Thermogravimetry – Differential Scanning Calorimetry (TG-DSC) was used to determine the thermal characteristic like decomposition of materials, desorption temperature, and the temperature of the changing phase. The addition of 0.5 mol% Nb2O5 to MgH2 can decrease the desorption temperature about 79 oC compared to MgH2 desorption temperature (466 oC). The addition of 2 mol% activated carbon can decrease the desorption temperature about 66oC. Combination of MgH2 – Activated Carbon – Nb2O5 with composition (mol%) 97.5 : 2 : 0.5 and 96 : 3.5 : 0.5 show the desorption temperature at 399 oC and 413 oC. The activation energy for both mixtures, based on Kissinger’s Plot, are 131 kJ/mol ang 88 kJ/mol, which are lower than MgH2 without any addition (206 kJ/mol). The mixtures of MgH2 – Activated Carbon – Nb2O5 can have hydrogen content up to 4%. |
| format |
Final Project |
| author |
Suryadi, Martin |
| author_facet |
Suryadi, Martin |
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Suryadi, Martin |
| title |
Thermal Study of MgH2 With Activated Carbon & Nb2O5 Addition as Hydrogen Storage Materal |
| title_short |
Thermal Study of MgH2 With Activated Carbon & Nb2O5 Addition as Hydrogen Storage Materal |
| title_full |
Thermal Study of MgH2 With Activated Carbon & Nb2O5 Addition as Hydrogen Storage Materal |
| title_fullStr |
Thermal Study of MgH2 With Activated Carbon & Nb2O5 Addition as Hydrogen Storage Materal |
| title_full_unstemmed |
Thermal Study of MgH2 With Activated Carbon & Nb2O5 Addition as Hydrogen Storage Materal |
| title_sort |
thermal study of mgh2 with activated carbon & nb2o5 addition as hydrogen storage materal |
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https://digilib.itb.ac.id/gdl/view/32204 |
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