| 1 |
Efficient heat allocation in the two-step ethanol steam reforming and solid oxide fuel cell integrated process
Tippawan P, Im-Orb K, Arpornwichanop A
Energy, 133, 545, 2017 |
| 2 |
Exergy analysis of the biogas sorption-enhanced chemical looping reforming process integrated with a high-temperature proton exchange membrane fuel cell
Kasemanand S, Im-orb K, Tippawan P, Wiyaratn W, Arpornwichanop A
Energy Conversion and Management, 149, 485, 2017 |
| 3 |
Using glycerol for hydrogen production via sorption-enhanced chemical looping reforming: Thermodynamic analysis
Tippawan P, Thammasit T, Assabumrungrat S, Arpornwichanop A
Energy Conversion and Management, 124, 325, 2016 |
| 4 |
Enhanced performance of solid oxide electrolysis cells by integration with a partial oxidation reactor: Energy and exergy analyses
Visitdumrongkul N, Tippawan P, Authayanun S, Assabumrungrat S, Arpornwichanop A
Energy Conversion and Management, 129, 189, 2016 |
| 5 |
Performance and economic assessments of a solid oxide fuel cell system with a two-step ethanol-steam-reforming process using CaO sorbent
Tippawan P, Arpornwichanop A
Journal of Power Sources, 306, 124, 2016 |
| 6 |
Energy and exergy analyses of an ethanol-fueled solid oxide fuel cell for a trigeneration system
Tippawan P, Arpornwichanop A, Dincer I
Energy, 87, 228, 2015 |
| 7 |
Energy and exergy analysis of an ethanol reforming process for solid oxide fuel cell applications
Tippawan P, Arpornwichanop A
Bioresource Technology, 157, 231, 2014 |
