Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical reactor design and modeling

doi:10.1016/j.solener.2017.05.003

Title: Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical reactor design and modeling

Article Details
Other Related Research

Authors:: Schrader, Andrew J. ; De Dominicis, Gianmarco ; Schieber, Garrett L. ; Loutzenhiser, Peter G.

Publication Date:: 2017-07-01

Grant/Contract Number:: FOA- 0000805-1541

Type:: Publisher's Accepted Manuscript

Journal Name:: Solar Energy

Additional Journal Information:: Journal Volume: 150; Journal Issue: C; Related Information: CHORUS Timestamp: 2018-09-21 00:08:55; Journal ID: ISSN 0038-092X

Publisher:: Elsevier

Sponsoring Org:: USDOE

Country of Publication:: United States

Language:: English

OSTI Identifier:: 1416666


                    Schrader, Andrew J., De Dominicis, Gianmarco, Schieber, Garrett L., and Loutzenhiser, Peter G.. Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical reactor design and modeling.  United States: N. p.,  
        Web.  doi:10.1016/j.solener.2017.05.003.

Copy to clipboard


                    Schrader, Andrew J., De Dominicis, Gianmarco, Schieber, Garrett L., & Loutzenhiser, Peter G.. Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical reactor design and modeling.  United States.  doi:10.1016/j.solener.2017.05.003.

Copy to clipboard


                    Schrader, Andrew J., De Dominicis, Gianmarco, Schieber, Garrett L., and Loutzenhiser, Peter G.. 2017.  
        "Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical reactor design and modeling".  United States.  
        doi:10.1016/j.solener.2017.05.003.

Copy to clipboard


                    
@article{osti_1416666,

  title        = {Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical reactor design and modeling},

  author       = {Schrader, Andrew J. and De Dominicis, Gianmarco and Schieber, Garrett L. and Loutzenhiser, Peter G.},

  abstractNote = {},

  doi          = {10.1016/j.solener.2017.05.003},

  journal      = {Solar Energy},

  number       = C,

  volume       = 150,

  place        = {United States},

  year         = {2017},

  month        = {7}

}

Copy to clipboard

Free Publicly Accessible Full Text
Accepted Manuscript (Publisher)
Publisher's Version of Record
10.1016/j.solener.2017.05.003
https://doi.org/10.1016/j.solener.2017.05.003

Citation Metrics
Cited by: 1work
Citation information provided by
Web of Science

Save / Share this Record
Export Metadata
- Endnote
- RIS
- Excel
- CSV
- XML
Save to My Library
Send to Email

Send to Email

Email address:

Content:

Similar Records

Similar records in DOE PAGES and OSTI.GOV collections:

Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions II: Kinetic analyses

Journal Article Muroyama, Alexander P. ; Schrader, Andrew J. ; Loutzenhiser, Peter G. December 2015 - Solar Energy

Cited by 7Full Text Available
Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions: Thermodynamic analysis

Journal Article Schrader, Andrew J. ; Muroyama, Alexander P. ; Loutzenhiser, Peter G. August 2015 - Solar Energy

Cited by 15Full Text Available
System efficiency for two-step metal oxide solar thermochemical hydrogen production – Part 2: Impact of gas heat recuperation and separation temperatures

Journal Article Ehrhart, Brian D. ; Muhich, Christopher L. ; Al-Shankiti, Ibraheam ; ... November 2016 - International Journal of Hydrogen Energy

Cited by 3Full Text Available
Model of an integrated solar thermochemical reactor/reticulated ceramic foam heat exchanger for gas-phase heat recovery

Journal Article Bala Chandran, Rohini ; De Smith, Robert M. ; Davidson, Jane H. February 2015 - International Journal of Heat and Mass Transfer

Cited by 10Full Text Available
Solar hydrogen production using Ce{sub 1-x}Li{sub x}O{sub 2-{delta}} solid solutions via a thermochemical, two-step water-splitting cycle

Journal Article - in OSTI.gov collection Meng, Qing-Long ; Lee, Chong-il ; Shigeta, Satoshi ; ... October 2012 - Journal of Solid State Chemistry

The reactivity of Ce{sub 1-x}Li{sub x}O{sub 2-{delta}} (x=0.025, 0.05, 0.075 and 0.1) solid solutions during the redox and two-step water-splitting cycles has been investigated in this work. Thermogravimetric analysis (TGA), X-ray diffraction (XRD) patterns and field-emission scanning electron microscopy (FE-SEM) indicate that there are two reaction mechanisms in the O{sub 2}-releasing step and the shift in the reaction mechanisms occurs in the O{sub 2}-releasing step because of sintering at high temperatures, and a decrease in the concentration of lattice oxygen occurs as the O{sub 2}-releasing step proceeds. The reaction in the O{sub 2}-releasing step follows a second-order mechanism over amore »« less
Full Text Available

Access journal articles and accepted manuscripts resulting from DOE research funding

Title: Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical reactor design and modeling

Access journal articles and accepted manuscripts
resulting from DOE research funding