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Ecologic Potential for Flexible Methanol Production from Steel Mill Off‐gases
Methanol production is one promising way to minimize the ecological impact of the conventional steelmaking process. This synthesis needs additional hydrogen, preferably produced from a green power source. In this paper, the influence of different power supply scenarios, gas storage volumes, and hydrogen production capacities on the overall carbon saving potential – defined as carbon binding ratio – from a flexible methanol production case will be investigated. A mixed‐integer linear programming model with rolling horizon is used to calculate the optimal production plan.
Ecologic Potential for Flexible Methanol Production from Steel Mill Off‐gases
Methanol production is one promising way to minimize the ecological impact of the conventional steelmaking process. This synthesis needs additional hydrogen, preferably produced from a green power source. In this paper, the influence of different power supply scenarios, gas storage volumes, and hydrogen production capacities on the overall carbon saving potential – defined as carbon binding ratio – from a flexible methanol production case will be investigated. A mixed‐integer linear programming model with rolling horizon is used to calculate the optimal production plan.
Ecologic Potential for Flexible Methanol Production from Steel Mill Off‐gases
Sadlowski, Matthias (author) / van Beek, Mathias (author)
Chemie Ingenieur Technik ; 92 ; 1416-1424
2020-10-01
9 pages
Article (Journal)
Electronic Resource
English
| UB Braunschweig | 1992
| TIBKAT | 1992