Techno-economic, environmental, and safety assessment of hydrogen powered community microgrids; case study in Canada

This paper proposes a comprehensive design of a renewable hydrogen powered microgrid that can provide backup power to a community in Cornwall, Ontario when disconnected from the power grid. The work employs the implementation of the energy hub concept to optimally design and operate energy generatio...

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Veröffentlicht in:International journal of hydrogen energy Jg. 42; H. 20; S. 14333 - 14349
Hauptverfasser: Mukherjee, Ushnik, Maroufmashat, Azadeh, Ranisau, Jonathan, Barbouti, Mohammed, Trainor, Aaron, Juthani, Nidhi, El-Shayeb, Hadi, Fowler, Michael
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Ltd 18.05.2017
Schlagworte:
Energy hub
Failure mode analysis
Hydrogen economy for microgrid
Mixed integer linear programming based optimization
Renewable energy
Vehicle-to-grid for back up generation
Failure mode analysis
Energy hub
Mixed integer linear programming based optimization
Vehicle-to-grid for back up generation
Renewable energy
Hydrogen economy for microgrid
ISSN:0360-3199, 1879-3487
Online-Zugang:Volltext
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Abstract This paper proposes a comprehensive design of a renewable hydrogen powered microgrid that can provide backup power to a community in Cornwall, Ontario when disconnected from the power grid. The work employs the implementation of the energy hub concept to optimally design and operate energy generation systems to meet energy loads of a community. Solar PVs, wind turbines, electrolysers, hydrogen tanks, fuel cells and fuel cell vehicles are considered as the components that make up the entire system providing energy within the community. Failure mode and effect analysis (FMEA) is done to assess the safety of hydrogen based microgrid. The major load centers include a fresh food distribution center and a residential complex, where the peak demand is ∼5410 kW. The results of a mixed integer linear programming optimization problem show that a renewable energy generation system size of 2000 kW (400 kW-solar Photovoltaic and 1600 kW-wind turbine) is required. In addition to this, a backup fuel cell generation system of 3000 kW is also needed for the two-day blackout period. One of the positive attributes of implementing vehicle to grid services during islanded operation mode is that it enables the community to offset investment in fuel cell backup generation capacity by 1000 kW. Thirty-eight Toyota Mirai have been used to provide the vehicle to grid service. Due to the scale of the system, it is observed that even after proposing the use of existing market pricing mechanisms for the services offered by the microgrid, the energy system does not have a positive net present value at the end of its project life. Therefore, further economic incentives in the form of bundling costs need to be sanctioned for cleaner microgrid energy systems to be developed. This submission was the Grand Prize Winner of the Hydrogen Education Foundation's 2016 Hydrogen Student Design Contest. •Optimal design of renewable based hydrogen powered microgrid was done.•The hydrogen based microgrid provides backup for 2 days in islanded operation mode.•Hydrogen fuel cell vehicles provide vehicle to grid (V2G) service during islanded operation mode.•A failure mode and effects analysis (FMEA) of hydrogen based microgrid was done.•Premium pricing mechanisms suggested for services provided by microgrid energy system.
AbstractList This paper proposes a comprehensive design of a renewable hydrogen powered microgrid that can provide backup power to a community in Cornwall, Ontario when disconnected from the power grid. The work employs the implementation of the energy hub concept to optimally design and operate energy generation systems to meet energy loads of a community. Solar PVs, wind turbines, electrolysers, hydrogen tanks, fuel cells and fuel cell vehicles are considered as the components that make up the entire system providing energy within the community. Failure mode and effect analysis (FMEA) is done to assess the safety of hydrogen based microgrid. The major load centers include a fresh food distribution center and a residential complex, where the peak demand is ∼5410 kW. The results of a mixed integer linear programming optimization problem show that a renewable energy generation system size of 2000 kW (400 kW-solar Photovoltaic and 1600 kW-wind turbine) is required. In addition to this, a backup fuel cell generation system of 3000 kW is also needed for the two-day blackout period. One of the positive attributes of implementing vehicle to grid services during islanded operation mode is that it enables the community to offset investment in fuel cell backup generation capacity by 1000 kW. Thirty-eight Toyota Mirai have been used to provide the vehicle to grid service. Due to the scale of the system, it is observed that even after proposing the use of existing market pricing mechanisms for the services offered by the microgrid, the energy system does not have a positive net present value at the end of its project life. Therefore, further economic incentives in the form of bundling costs need to be sanctioned for cleaner microgrid energy systems to be developed. This submission was the Grand Prize Winner of the Hydrogen Education Foundation's 2016 Hydrogen Student Design Contest. •Optimal design of renewable based hydrogen powered microgrid was done.•The hydrogen based microgrid provides backup for 2 days in islanded operation mode.•Hydrogen fuel cell vehicles provide vehicle to grid (V2G) service during islanded operation mode.•A failure mode and effects analysis (FMEA) of hydrogen based microgrid was done.•Premium pricing mechanisms suggested for services provided by microgrid energy system.
Author Ranisau, Jonathan
Fowler, Michael
Mukherjee, Ushnik
Trainor, Aaron
Barbouti, Mohammed
El-Shayeb, Hadi
Maroufmashat, Azadeh
Juthani, Nidhi
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  fullname: Maroufmashat, Azadeh
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  givenname: Jonathan
  orcidid: 0000-0002-1178-7510
  surname: Ranisau
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  givenname: Mohammed
  surname: Barbouti
  fullname: Barbouti, Mohammed
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  givenname: Aaron
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  givenname: Nidhi
  surname: Juthani
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  surname: El-Shayeb
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  givenname: Michael
  orcidid: 0000-0002-9761-0336
  surname: Fowler
  fullname: Fowler, Michael
  email: mfowler@uwaterloo.ca
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Keywords Failure mode analysis
Energy hub
Mixed integer linear programming based optimization
Vehicle-to-grid for back up generation
Renewable energy
Hydrogen economy for microgrid
Language English
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Snippet This paper proposes a comprehensive design of a renewable hydrogen powered microgrid that can provide backup power to a community in Cornwall, Ontario when...
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elsevier
SourceType Enrichment Source
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Publisher
StartPage 14333
SubjectTerms Energy hub
Failure mode analysis
Hydrogen economy for microgrid
Mixed integer linear programming based optimization
Renewable energy
Vehicle-to-grid for back up generation
Title Techno-economic, environmental, and safety assessment of hydrogen powered community microgrids; case study in Canada
URI https://dx.doi.org/10.1016/j.ijhydene.2017.03.083
Volume 42
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