Operating Agent: Philipp Furler, ETH Zurich, Switzerland
- Robbie McNaughton, CSIRO, Australia
- Liejin Guo, Xi'an Jiaotong University, China
- Gilles Flamant, CNRS-PROMES, France
- Karl-Heinz Funken, DLR, Germany
- George Karagiannakis, CERTH, Greece
- Alberto Giaconia, ENEA, Italy
- Yong-Heack Kang, KIER, Korea
- Claudio Estrada, UNAM, Mexico
- Jan van Ravenswaay, NWU, South Africa
- Alfonso Vidal, CIEMAT, Spain
- Philipp Furler, ETH Zurich, Switzerland
- Nathan Siegel, Bucknell University, USA
Nature of Work & Objectives
The primary objective of Task II—Solar Chemistry R&D—is to develop and optimize solar-driven thermo-chemical processes for the production of fuels and materials, and to demonstrate—at industrial scale—their technical and economic feasibility. Six activities reflect the future challenges and foster active participation of SolarPACES member countries:
Activity 1: Solar Fuels (SF)
1) Demonstrate—at pilot scale—the most advanced processes for the solar production of synthetic fuels (e.g., cracking or steam reforming of NG, gasification of carbonaceous materials, carbo-thermal reduction of metal oxides).
2) Demonstrate medium and high temperature steam electrolysis and multi-step thermo-chemical processes (e.g., sulfur-based cycles) for the solar production of hydrogen.
3) Scale up the solar reactor technology of promising two-step H2O/CO2-splitting processes (e.g., Zn/ZnO & ferrite cycles) for the production of hydrogen, syngas, and liquid fuels.
Activity 2: Solar Materials (SM)
Process chemical commodities using concentrated sunlight (e.g., aluminum, magnesium, silicon, zinc; lime and cement).
Activity 3: Thermo-chemical Storage (TS)
Develop novel thermochemical storage systems for parabolic troughs and central receivers.
Activity 4: Technology Innovation (TI)
1) Engineer innovative and cost-efficient high-temperature solar reactor materials and components.
2) Design advanced heat recovery systems.
3) Implement advanced concentrating optics for high solar flux intensities and high temperatures.
Activity 5: Research Infrastructure (RI)
Optimize dedicated concentrating solar research infrastructure for large-scale testing of high-temperature thermochemical processes.
Activity 6: Market Penetration (MP)
1) Enhance the industry involvement in solar fuels production and promote the market penetration of the most mature solar fuels technologies.
2) Interact with industry, government, and academia to develop country-specific “roadmaps to solar fuels” (Task II special activity).
Organization and Structure
The Task II Operating Agent, currently ETH Zurich, Switzerland, is responsible for organization, operation, and reporting. International solar chemical research, development and demonstration efforts are coordinated in cost, task and/or information-sharing activities by National Coordinators (NC), making use of an efficient network, for the rapid exchange of technical and scientific information. The Task II Annual Meeting provides a forum for presenting and discussing major technological achievements.
The Task II Program of Work provides an up-to-date description of the national and international projects. When appropriate, Task II conducts a status review on novel technologies for assessing their technical and economical feasibility. Task II is continuously striving to stimulate public awareness of the potential contribution of solar chemistry to clean, sustainable energy services.
Status of Technology
The Task II Chapter of the SolarPACES Annual Report provides a comprehensive overview of the many ways in which solar chemical technologies may be used for the delivery of clean, sustainable energy services. Special focus on the solar thermal production of fuels (hydrogen and syngas) and chemicals for the power, transportation and chemical sectors of the world energy economy.
In the following link, the most important achievements of Task II related projects are summarized with up-to-date information about project participation, objectives, status, and most relevant publications.
SolarPACES Annual Report 2015 - Task II Chapter
Roadmap to Solar Fuels