743 Materials and Processes for Thermo-, Electro- and Photo-Chemical Energy Storage

Thursday, November 7, 2013: 3:15 PM
Powell A (Hilton)
Energy storage is critical for utilization of renewable energies that vary significantly in their production with seasonality and weather, such as solar, wind, and hydrothermal power. Chemical bonds provide much higher capacity than other physical means for energy storage. This session solicits the latest research results of materials and processes for energy storage via thermo-chemical, electrochemical, or photochemical reactions, which include chemical-looping materials, batteries, and fuel cells.

Innovations of Green Process Engineering for Sustainable Energy and Environment
Engineering Sciences and Fundamentals (01), Catalysis and Reaction Engineering Division (20)

Guohua Chen
Email: kechengh@ust.hk

Liyu Li
Email: liliyu68@yahoo.com

Ronald Mosso
Email: rjmosso@enervault.com

- indicates paper has an Extended Abstract file available on CD.

5:05 PM
(743f) Synthesis and Redox Pathways of MgAl2O4-Stabilized, Fe-Cu-Based Oxygen Carriers for Chemical Looping Water Splitting
Qasim Imtiaz, Nur Sena Yüzbasi, Marcin Broda, Agnieszka Kierzkowska, Paula Abdala, Wouter van Beek and Christoph R. Müller
File available
5:27 PM
(743g) Study On Performance of the Novel Steam Generation System Using Water-Zeolite Pair
Koichi Nakaso, Kazuya Nakashima, Yuuki Tanaka, Yoshiho Iwama and Jun Fukai