全部文献期刊学位论文会议报纸专利标准年鉴图书|学者科研项目
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作者:Peter G. Loutzenhiser , Anton Meier , Aldo Steinfeld
来源:[J].Materials(IF 2.247), 2010, Vol.3 (11), pp.4922DOAJ
摘要:This article provides a comprehensive overview of the work to date on the two‑step solar H2O and/or CO2 splitting thermochemical cycles with Zn/ZnO redox reactions to produce H2 and/or CO, i.e., synthesis gas—the precursor to renewable liquid hydrocarbon fuels. The two-step ...
作者:Aldo Steinfeld , Anton Meier , Peter G. Loutzenhiser
来源:[J].Materials(IF 2.247), 2010, Vol.3 (11), pp.4922-4938DOAJ
摘要:This article provides a comprehensive overview of the work to date on the two‑step solar H2O and/or CO2 splitting thermochemical cycles with Zn/ZnO redox reactions to produce H2 and/or CO, i.e., synthesis gas—the precursor to renewable liquid hydrocarbon fuels. The two-step ...
作者:Peter G. Loutzenhiser , Gregory M. Maxwell , Heinrich Manz
来源:[J].Energy(IF 3.651), 2007, Vol.32 (10), pp.1855-1870Elsevier
摘要:Abstract(#br)Empirical validation of building energy simulation programs is an important technique in examining the effectiveness and accuracies of implemented algorithms. In recent years, daylighting algorithms incorporated in building energy simulation programs have become incr...
作者:Peter G. Loutzenhiser , Heinrich Manz ...
来源:[J].International Journal of Thermal Sciences(IF 2.47), 2008, Vol.48 (1), pp.85-95Elsevier
摘要:Abstract(#br)An empirical validation of building energy simulation programs was performed in a test cell on the Swiss Federal Laboratories for Materials Testing and Research (EMPA) campus in Duebendorf, Switzerland. The purpose of this exercise was to evaluate the performances of...
作者:Alexander P. Muroyama , Andrew J. Schrader , Peter G. Loutzenhiser
来源:[J].Solar Energy(IF 2.952), 2015, Vol.122, pp.409-418Elsevier
摘要:Abstract(#br)A two-step solar thermochemical cycle based on Co 3 O 4 /CoO redox reactions integrated into an Air Brayton cycle is considered for thermochemical heat storage. The two-step cycle encompasses (1) the thermolysis of Co 3 O 4 to CoO and O 2 driven by concentrated ...
作者:Andrew J. Schrader , Alexander P. Muroyama , Peter G. Loutzenhiser
来源:[J].Solar Energy(IF 2.952), 2015, Vol.118, pp.485-495Elsevier
摘要:Abstract(#br)Solar electricity production is considered in an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co 3 O 4 /CoO redox reactions. The two steps of the heat storage cycle are encompassed by (1) the high-temperature thermolysi...
作者:Peter G. Loutzenhiser , Heinrich Manz ...
来源:[J].HVAC&R Research(IF 0.585), 2006, Vol.12 (4), pp.1097-1116Taylor & Francis
摘要:Empirical validation of building energy simulation tools is an important component in assessing the reliability of the simulation software. An experiment performed in conjunction with the International Energy Agency's Task 34/Annex 43 was used to assess the performance of fo...
作者:Peter G. Loutzenhiser , Heinrich Manz ...
来源:[J].Energy & Buildings(IF 2.679), 2007, Vol.40 (3), pp.330-340Elsevier
摘要:Abstract(#br)Experiments performed at the Swiss Federal Laboratories for Materials Testing and Research (EMPA) test cell located in Duebendorf, Switzerland were used for empirical validations of building energy simulation programs. Four solar gain experiments were run with e...
作者:Peter G. Loutzenhiser , M. Elena Gálvez ...
来源:[J].Chemical Engineering Science(IF 2.386), 2009, Vol.65 (5), pp.1855-1864Elsevier
摘要:Abstract(#br)Using concentrated solar energy as the source of high-temperature process heat, a two-step CO 2 splitting thermochemical cycle based on Zn/ZnO redox reactions is applied to produce renewable fuels. The solar thermochemical cycle consists of (1) the solar endothermic ...
作者:Peter G. Loutzenhiser , Aldo Steinfeld
来源:[J].International Journal of Hydrogen Energy(IF 3.548), 2011, Vol.36 (19), pp.12141-12147Elsevier
摘要:Abstract(#br)Solar syngas production from CO 2 and H 2 O is considered in a two-step thermochemical cycle via Zn/ZnO redox reactions, encompassing: 1) the ZnO thermolysis to Zn and O 2 using concentrated solar radiation as the source of process heat, and 2) Zn reacting with ...

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