Christian Breyer
Breyer, Christian 1977-
VIAF ID: 150856082 (Personal)
Permalink: http://viaf.org/viaf/150856082
Preferred Forms
- 100 1 _ ‡a Breyer, Christian ‡d 1977-
- 100 1 _ ‡a Breyer, Christian ‡d 1977-
- 100 0 _ ‡a Christian Breyer
4xx's: Alternate Name Forms (4)
5xx's: Related Names (5)
- 510 2 _ ‡a Helmholtz-Zentrum Berlin für Materialien und Energie ‡4 affi ‡4 https://d-nb.info/standards/elementset/gnd#affiliation ‡e Affiliation
- 510 2 _ ‡a Lappeenrannan Teknillinen Korkeakoulu ‡4 affi ‡4 https://d-nb.info/standards/elementset/gnd#affiliation ‡e Affiliation
- 510 2 _ ‡a Lappeenrannan Teknillinen Yliopisto ‡4 affi ‡4 https://d-nb.info/standards/elementset/gnd#affiliation ‡e Affiliation
- 510 2 _ ‡a Technische Universität Clausthal ‡4 affi ‡4 https://d-nb.info/standards/elementset/gnd#affiliation ‡e Affiliation
- 510 2 _ ‡a Universität Kassel ‡4 affi ‡4 https://d-nb.info/standards/elementset/gnd#affiliation ‡e Affiliation
Works
Title | Sources |
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artikull shkencor i botuar në vitin 2022 | |
Can Australia Power the Energy-Hungry Asia with Renewable Energy? | |
Catching two European birds with one renewable stone: Mitigating climate change and Eurozone crisis by an energy transition | |
A comparative analysis of electricity generation costs from renewable, fossil fuel and nuclear sources in G20 countries for the period 2015-2030 | |
Desalination Costs Using Renewable Energy Technologies | |
Energy Return on Energy Invested (ERoEI) for photovoltaic solar systems in regions of moderate insolation: A comprehensive response | |
An energy transition pathway for Turkey to achieve 100% renewable energy powered electricity, desalination and non-energetic industrial gas demand sectors by 2050 | |
Global demand analysis for carbon dioxide as raw material from key industrial sources and direct air capture to produce renewable electricity-based fuels and chemicals | |
Global energy transition to 100% renewables by 2050: Not fiction, but much needed impetus for developing economies to leapfrog into a sustainable future | |
Hydro, wind and solar power as a base for a 100% renewable energy supply for South and Central America. | |
Hydropower and Power-to-gas Storage Options: The Brazilian Energy System Case | |
Local cost of seawater RO desalination based on solar PV and wind energy: A global estimate | |
Long-Term Hydrocarbon Trade Options for the Maghreb Region and Europe—Renewable Energy Based Synthetic Fuels for a Net Zero Emissions World | |
North-East Asian Super Grid: Renewable energy mix and economics | |
Pathways to a fully sustainable electricity supply for Nigeria in the mid-term future | |
Profitable climate change mitigation: The case of greenhouse gas emission reduction benefits enabled by solar photovoltaic systems | |
Proposing a 1.0°C climate target for a safer future | |
Radical transformation pathway towards sustainable electricity via evolutionary steps | |
Replacing gas boilers with heat pumps is the fastest way to cut German gas consumption | |
Reply to 'Bias in energy system models with uniform cost of capital assumption' | |
The role of renewables for rapid transitioning of the power sector across states in India | |
Role of Seawater Desalination in the Management of an Integrated Water and 100% Renewable Energy Based Power Sector in Saudi Arabia | |
The role of storage technologies in energy transition pathways towards achieving a fully sustainable energy system for India | |
Setting the Pace for a Sustainable Energy Transition in Central Africa: The Case of Cameroon | |
Status and perspectives on 100% renewable energy systems | |
Techno-Economic Assessment of Power-to-Liquids (PtL) Fuels Production and Global Trading Based on Hybrid PV-Wind Power Plants | |
Terawatt-scale photovoltaics: Transform global energy | |
A top-down analysis: Determining photovoltaics R&D investments from patent analysis and R&D headcount |