Explore the words cloud of the SOLPART project. It provides you a very rough idea of what is the project "SOLPART" about.
The following table provides information about the project.
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
|Coordinator Country||France [FR]|
|Total cost||4˙558˙687 €|
|EC max contribution||4˙366˙562 € (96%)|
1. H2020-EU.126.96.36.199. (Develop geothermal, hydro, marine and other renewable energy options)
2. H2020-EU.188.8.131.52. (Develop efficient, reliable and cost-competitive solar energy systems)
3. H2020-EU.184.108.40.206. (Develop the full potential of wind energy)
|Duration (year-month-day)||from 2016-01-01 to 2019-12-31|
Take a look of project's partnership.
|1||CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS||FR (PARIS)||coordinator||1˙078˙392.00|
|2||DEUTSCHES ZENTRUM FUER LUFT - UND RAUMFAHRT EV||DE (KOELN)||participant||1˙085˙155.00|
|3||COMESSA SA||FR (STRASBOURG)||participant||720˙750.00|
|4||THE UNIVERSITY OF MANCHESTER||UK (MANCHESTER)||participant||474˙156.00|
|5||ABENGOA ENERGIA SA||ES (SEVILLA)||participant||250˙139.00|
|7||EUROPEAN POWDER AND PROCESS TECHNOLOGY BVBA||BE (Tremelo)||participant||194˙976.00|
|8||UNIVERSITE CADI AYYAD||MA (MARRAKECH)||participant||148˙500.00|
|9||ABENGOA RESEARCH SL||ES (SEVILLA)||participant||124˙860.00|
|10||NEW LIME DEVELOPMENT||BE (VILLERS-LE-BOUILLET)||participant||82˙131.00|
|11||CEMEX RESEARCH GROUP AG||CH (BRUGG BEI BIEL)||participant||0.00|
The main objective of the SOLPART project is to develop, at pilot scale, a high temperature (950°C) 24h/day solar process suitable for particle treatment in energy intensive industries (e.g. cement or lime industries). The project aims at supplying totally or partially the thermal energy requirement for CaCO3 calcination by high temperature solar heat thus reducing the life cycle environmental impacts of the process and increasing the attractiveness of renewable heating technologies in process industries. This will be achieved by the demonstration of a pilot scale solar reactor suitable for calcium carbonate decomposition (Calcination reaction: CaCO3 = CaO CO2) and to simulate at prototype scale a 24h/day industrial process (TRL 4-5) thereby requiring a high-temperature transport and storage system. The system will operate at 950°C and will include a 30 kWth solar reactor producing 30 kg/h CaO and a 16h hot CaO storage. Life cycle environmental impacts of the solar-based solution in comparison with standard processes will be developed as well as economic evaluation. The project develops and merges three advanced technologies: high temperature solar reactor, transport of high-temperature solid materials and high temperature thermal storage. The synergy between these technologies lies in using the solar-treated particles as storage medium. The development of a such innovative technology for continuous particle processed by concentrated solar energy at about 950°C is unique in the world. Thanks to the solar unit integration in the industrial process (potentially combined with CO2 capture), this should result in the considerable reduction of the carbon footprint of the CO2 emitter industries and open a new market for renewable energies.
|Report on reactor models||Documents, reports||2020-03-27 10:03:23|
|Report on dissemination and communication activities||Documents, reports||2020-03-27 10:03:23|
|Report on thermodynamics and kinetics of selected reactions||Documents, reports||2020-03-27 10:03:22|
|Project Quality Assurance Plan and Project Handbook||Documents, reports||2020-03-27 10:03:22|
|Plan for dissemination and exploitation of results||Documents, reports||2020-03-27 10:03:22|
|Report on chemical behaviour of natural phosphate during calcination||Documents, reports||2020-03-27 10:03:22|
Take a look to the deliverables list in detail: detailed list of SOLPART deliverables.
|year||authors and title||journal||last update|
Gkiokchan Moumin, Stefania Tescari, Pradeepkumar Sundarraj, Lamark de Oliveira, Martin Roeb, Christian Sattler
Solar treatment of cohesive particles in a directly irradiated rotary kiln
published pages: 480-490, ISSN: 0038-092X, DOI: 10.1016/j.solener.2019.01.093
|Solar Energy 182||2020-03-27|
Weibin Kong, Shuo Li, Hui Ke, Huili Zhang, Jan Baeyens
The use of ultrasound probes to monitor multi-phase behavior in opaque systems
published pages: , ISSN: 1674-2001, DOI: 10.1016/j.partic.2018.05.009
Thibaut Esence, Hadrien Benoit, Damien Poncin, Michael Tessonneaud, Gilles Flamant
A shallow cross-flow fluidized-bed solar reactor for continuous calcination processes
published pages: 389-398, ISSN: 0038-092X, DOI: 10.1016/j.solener.2019.12.029
|Solar Energy 196||2020-03-27|
Gkiokchan Moumin, Maximilian Ryssel, Li Zhao, Peter Markewitz, Christian Sattler, Martin Robinius, Detlef Stolten
CO2 emission reduction in the cement industry by using a solar calciner
published pages: 1578-1596, ISSN: 0960-1481, DOI: 10.1016/j.renene.2019.07.045
|Renewable Energy 145||2020-03-27|
Weibin Kong, Bin Wang, Jan Baeyens, Shuo Li, Hui Ke, Tianwei Tan, Huili Zhang
Solids mixing in a shallow cross-flow bubbling fluidized bed
published pages: 213-222, ISSN: 0009-2509, DOI: 10.1016/j.ces.2018.04.073
|Chemical Engineering Science 187||2020-03-27|
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