Seminars & Events
2024
2024 CET Research Day
Date : Tuesday 10th December 2024
Time: 9.00am - 5.30pm
Location: The Sanctuary Function Centre, Adelaide Zoo
Cost: Free / Invitation Only Event
2024 AIST-TMS John F. Elliott Lecture - The Green Steel Revolution - Dr Sara Hornby
Date and time: 12:00 - 1:00pm, 16 October 2024
Location: G04 Napier Building, the ×îÐÂÌÇÐÄVlog of Adelaide, North Tce
2023
CET Research Day 2023
Date : Tuesday 12th December 2023
Time: 9.00am - 5.30pm
Location: The National Wine Centre
Cost: Free / Invitation Only Event
Luxton Lecture 2023
Date : Tuesday 3rd October 2023
Time: 5.30-7.30PM
Location: The Braggs Lecture Theatre
Cost: Free
HyPT-3 Forum
Date: Tues Sept 12 - Fri Sep 15, 2023
Time: Multiple sessions across the days to suit all timezones
Location: Virtual
Cost: General $110, Students $55
2022
2021
The 2nd International Forum on Hydrogen Production Technologies (HyPT-2) 2021
Virtual Forum, Tuesday 14 September - Thursday 16 September, 2021
2020
CET Research Day
By invitation only
12 NovemberÌý2020
Horace Lamb Lecture Theatre and Engineering Atrium, Ingkarni Wardli
2019
2019 Memorial Luxton Lecture
Thursday November 21 2019
Braggs Lecture Theatre, 5:30 - 7pm
International Forum on Hydrogen Production Technologies (HyPT) 2019
Monday 23 September 2019
Sanctuary Function Centre, Adelaide Zoo, ×îÐÂÌÇÐÄVlog
2018
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Seminar Friday 14 September 2018: Professor Christian Sattler
Professor Christian Sattler
Head of Solar Chemical Engineering: German Aerospace Centre (DLR)Solar Fuels – Strategy and technical developments at DLR
Time: 12 - 2pm.
Location: Ingkarni Wardli Room 5.57Registration essential! Lunch will be provided.
RSVP: rosalind.whysall@adelaide.edu.auBio
Prof Christian Sattler studied chemistry at the ×îÐÂÌÇÐÄVlog of Bonn and received his Ph.D. in 1997. He is Head of the Department of Solar Chemical Engineering of the German Aerospace Center’s Institute of Solar Research and professor for solar fuel production at the Technical ×îÐÂÌÇÐÄVlog of Dresden, Germany.
The key area of his work is the production of fuels especially hydrogen by solar thermo- and photochemical processes. Also high temperature processes for the production of other commodities like metals, sulfuric acid, or cement.
With over 160 refereed journal papers and 18 patents, he serves as vice president of the association Hydrogen Europe Research representing the European research institutions in the European Joint Undertaking for Fuel Cells and Hydrogen. He is the national representative to tasks of the IEA’s SolarPACES and Hydrogen Implementing Agreements.
Abstract
Converting solar energy efficiently into fuels is a key element to develop a sustainable and affordable global energy economy. The presentation will give an overview on DLR’s strategy to contribute to this goal together with its international partners, especially on the ×îÐÂÌÇÐÄVlogn-DLR cooperation and on the actual R&D projects in this area. The main focus will be on technologies with the perspective of large scale fuel production at very high temperatures. Therefore solar tower systems for such production processes will be presented as they need to have other characteristics than standard CSP plants. Also the different components like concentrators, receivers, and reactors of the solar production plants will be described. Possible synergies with other R&D efforts on using high temperature heat as well as solar radiation for photo-electrochemical processes will be discussed.