Professori Christian Breyer

E-mail: Christian.Breyer@lut.fi
Mobile phone: +358 50 443 1929
CV:
Uploaded on: 30/11/2018

Current Organisation
Solar Economy (Superior organisation: Laboratory of Electrical Engineering)

Research Interest
Solar Economy, Renewable Energy Technologies, Energy Scenarios, Renewable Energy Business Cases

Projects as Co-Investigator
P2XENABLE (01/03/2020 - 31/07/2022)
Funder: Business Finland



Publications
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Can seawater desalination be a win-win fix to our water cycle? (2020)
A1 Journal article (refereed), original research
Pistocchi Alberto, Bleninger Tobias, Breyer Christian, et al.
Water Research
Current energy policies and possible transition scenarios adopting renewable energy: A case study for Bangladesh (2020)
A1 Journal article (refereed), original research
Gulagi Ashish, Ram Manish, Asfaw Solomon, et al.
Renewable Energy
From hot rock to useful energy: A global estimate of enhanced geothermal systems potential (2020)
A1 Journal article (refereed), original research
Aghahosseini Arman, Breyer Christian
Applied Energy
Strengthening the global water supply through a decarbonised global desalination sector and improved irrigation systems (2020)
A1 Journal article (refereed), original research
Caldera Upeksha, Breyer Christian
Energy
The Role of Transmission Grid and Solar Wind Complementarity in Mitigating the Monsoon Effect in a Fully Sustainable Electricity System for India (2020)
A1 Journal article (refereed), original research
Gulagi Ashish, Ram Manish, Breyer Christian
IET Renewable Power Generation
Analysing the feasibility of powering the Americas with renewable energy and inter-regional grid interconnections by 2030 (2019)
A1 Journal article (refereed), original research
Aghahosseini Arman, Bogdanov Dmitrii, Barbosa Larissa, et al.
Renewable and Sustainable Energy Reviews
Assessing the potential for renewable energy powered desalination for the global irrigation sector (2019)
A1 Journal article (refereed), original research
Caldera Upeksha, Breyer Christian
Science of the Total Environment
Assessment of a cost-optimal power system fully based on renewable energy for Iran by 2050 – Achieving zero greenhouse gas emissions and overcoming the water crisis (2019)
A1 Journal article (refereed), original research
Ghorbani Narges, Aghahosseini Arman, Breyer Christian
Renewable Energy
Baseload electricity and hydrogen supply based on hybrid PV-wind power plants (2019)
A1 Journal article (refereed), original research
Fasihi Mahdi, Breyer Christian
Journal of Cleaner Production




Last updated on 2018-30-11 at 08:35