Multi-scale energy systems engineering for optimal natural gas utilization

[Display omitted] •Natural gas is an attractive energy resource whose full potential is still to be realized.•Multi-scale energy systems engineering is a tool to bridge the spatial and temporal gap between different energy systems.•Optimal natural gas utilization requires the consideration of differ...

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Bibliographic Details
Published in:Catalysis today 2020-10, Vol.356, p.18-26
Main Authors: Tso, William W., Demirhan, C. Doga, Floudas, Christodoulos A., Pistikopoulos, Efstratios N.
Format: Article
Language:English
Subjects:
Modeling
Multi-scale energy systems engineering
Natural gas
Optimization
Supply chain
Synthesis
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Summary:[Display omitted] •Natural gas is an attractive energy resource whose full potential is still to be realized.•Multi-scale energy systems engineering is a tool to bridge the spatial and temporal gap between different energy systems.•Optimal natural gas utilization requires the consideration of different spatial and temporal scales.•Several modeling and computational challenges exist in extending multi-scale energy systems engineering further. Due to advances in hydraulic fracturing and horizontal drilling, the abundance of inexpensive natural gas has revolutionized the energy industry. As the world population increases, natural gas will play a prominent role in satisfying new energy demands and transitioning society toward cleaner and more sustainable energy. Natural gas is a flexible energy resource that can be utilized for electric power generation, heating, transportation fuel, and synthesizing commodity chemicals. Given the numerous alternatives, a methodology for analyzing and optimizing natural gas utilization is necessary to construct efficient, reliable, affordable, and environmentally conscious natural gas systems. Multi-scale energy systems engineering is a holistic approach that considers the impact different spatial and temporal scales have toward the design and optimization of an overall energy system. Accurately capturing atomic, molecular, unit, process, and supply chain characteristics and their interactions are all important toward the optimal energy system design. We showcase the applicability of the multi-scale energy systems engineering for optimizing natural gas systems such as novel conversion technologies, integrated processing plants, and supply chain networks. Without considering the effects of different scales in a systematic integrated way, we risk converging on suboptimal energy systems.
ISSN:0920-5861
1873-4308
DOI:10.1016/j.cattod.2019.09.009