A mixed-integer linear optimization formulation is developed to analyze the United States energy supply chain network for the hybrid coal, biomass, and natural gas to liquids (CBGTL) facilities. Each state is discretized into octants and each octant centroid serves as a potential location of one facility. The model selects the optimal locations of CBGTL facilities, the feedstock combination, and size of each facility that gives the minimum overall production cost. Two case studies are presented to investigate the effects of various technologies and hydrogen prices. The CBGTL network is capable to supply transportation fuel demands for the country at a cost between $15.68 and $22.06/GJ LHV ($76.55-$112.91/bbl crude oil) of produced liquid fu...
This work presents a strategy for the design of a hydrogen supply chain network for minimum daily su...
In order to achieve a hydrogen economy, developing widespread hydrogen supply systems are vitally im...
Nowadays hydrogen is largely used in refineries and ammonia plants. In future, hydrogen could be use...
International audienceThis paper focuses on developing a mathematical model that covers the entire h...
This study aims to develop integrated hydrogen supply networks (IHSNs) by combining a natural gas hy...
By powering fuel cell electric vehicles hydrogen can contribute to greenhouse gas emissions reductio...
This study is motivated by the challenges faced by weak economies in addressing their energy deficie...
In recent years, research has shown that biomass can be a source of energy to replace fossil fuels a...
Natural gas is the most growing fossil fuel due to its environmental advantages. For the economical ...
The cost of hydrogen from biomass is not well understood due to the trade-offs between economies of ...
This paper presents an optimization modeling approach to support strategic planning for designing hy...
The cost of hydrogen from biomass is not well understood due to the trade-offs betweeneconomies of s...
Biomass-based energy processes pose logistical challenges because of the dispersed nature of biomass...
DoctorThis thesis suggests a mathematical model for optimal design of integrated utility and hydroge...
© 2019 Because of its sustainability, less environmental pollution and high profitability, rapidly g...
This work presents a strategy for the design of a hydrogen supply chain network for minimum daily su...
In order to achieve a hydrogen economy, developing widespread hydrogen supply systems are vitally im...
Nowadays hydrogen is largely used in refineries and ammonia plants. In future, hydrogen could be use...
International audienceThis paper focuses on developing a mathematical model that covers the entire h...
This study aims to develop integrated hydrogen supply networks (IHSNs) by combining a natural gas hy...
By powering fuel cell electric vehicles hydrogen can contribute to greenhouse gas emissions reductio...
This study is motivated by the challenges faced by weak economies in addressing their energy deficie...
In recent years, research has shown that biomass can be a source of energy to replace fossil fuels a...
Natural gas is the most growing fossil fuel due to its environmental advantages. For the economical ...
The cost of hydrogen from biomass is not well understood due to the trade-offs between economies of ...
This paper presents an optimization modeling approach to support strategic planning for designing hy...
The cost of hydrogen from biomass is not well understood due to the trade-offs betweeneconomies of s...
Biomass-based energy processes pose logistical challenges because of the dispersed nature of biomass...
DoctorThis thesis suggests a mathematical model for optimal design of integrated utility and hydroge...
© 2019 Because of its sustainability, less environmental pollution and high profitability, rapidly g...
This work presents a strategy for the design of a hydrogen supply chain network for minimum daily su...
In order to achieve a hydrogen economy, developing widespread hydrogen supply systems are vitally im...
Nowadays hydrogen is largely used in refineries and ammonia plants. In future, hydrogen could be use...