Hydrogen deployment as an energy vector will play a crucial role in the decarbonization of the energy and industrial sectors. Its integration with the energy system requires the development of an adequate delivery infrastructure. The identification of an optimal design and operation strategy is complex due the variety of technological options in each stage of the hydrogen supply chain. This work develops a mixed-integer linear programming model to optimize the design and operation of a hydrogen infrastructure, comprising the entire supply chain from production to demand. A crucial novelty element is the combination of technical alternatives and modelling features. The proposed multi-modality formulation optimizes the transport technology at...
This work introduces a methodological framework for the design of realistic and sustainable hydrogen...
International audienceThe planning of a hydrogen infrastructure with production facilities, distribu...
Analysing hydrogen supply chains is of utmost importance to adequately understand future energy syst...
Hydrogen deployment as an energy vector will play a crucial role in the decarbonization of the energ...
Hydrogen is recognized as a key element of future low-carbon energy systems. For proper integration,...
This work addresses the infrastructural needs arising from the widespread deployment of hydrogen for...
Transportation is likely to be the greatest source of noise and local air pollution in urban centres...
This paper presents a multi-objective optimization models which operating as time processes (2025-20...
This work presents a strategy for the design of a hydrogen supply chain network for minimum daily su...
International audienceThis paper focuses on developing a mathematical model that covers the entire h...
AbstractHydrogen is widely recognised as an important option for future road transportation, but a w...
Green hydrogen for mobility represents an alternative to conventional fuel to decarbonize the transp...
This work introduces a methodological framework for the design of realistic and sustainable hydrogen...
International audienceThe planning of a hydrogen infrastructure with production facilities, distribu...
Analysing hydrogen supply chains is of utmost importance to adequately understand future energy syst...
Hydrogen deployment as an energy vector will play a crucial role in the decarbonization of the energ...
Hydrogen is recognized as a key element of future low-carbon energy systems. For proper integration,...
This work addresses the infrastructural needs arising from the widespread deployment of hydrogen for...
Transportation is likely to be the greatest source of noise and local air pollution in urban centres...
This paper presents a multi-objective optimization models which operating as time processes (2025-20...
This work presents a strategy for the design of a hydrogen supply chain network for minimum daily su...
International audienceThis paper focuses on developing a mathematical model that covers the entire h...
AbstractHydrogen is widely recognised as an important option for future road transportation, but a w...
Green hydrogen for mobility represents an alternative to conventional fuel to decarbonize the transp...
This work introduces a methodological framework for the design of realistic and sustainable hydrogen...
International audienceThe planning of a hydrogen infrastructure with production facilities, distribu...
Analysing hydrogen supply chains is of utmost importance to adequately understand future energy syst...