Fachbereich Ingenieurwissenschaften und Kommunikation
Refine
H-BRS Bibliography
- yes (32)
Departments, institutes and facilities
- Fachbereich Ingenieurwissenschaften und Kommunikation (32)
- Institut für Technik, Ressourcenschonung und Energieeffizienz (TREE) (21)
- Institute of Visual Computing (IVC) (5)
- Internationales Zentrum für Nachhaltige Entwicklung (IZNE) (5)
- Institut für Medienentwicklung und -analyse (IMEA) (2)
- Fachbereich Angewandte Naturwissenschaften (1)
- Fachbereich Informatik (1)
- Institut für funktionale Gen-Analytik (IFGA) (1)
Document Type
- Conference Object (14)
- Article (9)
- Report (3)
- Part of a Book (2)
- Contribution to a Periodical (2)
- Preprint (1)
- Book review (1)
Year of publication
- 2018 (32) (remove)
Keywords
- FPGA (2)
- Hochschule Bonn-Rhein-Sieg (1)
- Low-power education (1)
- Medienwandel (1)
- Molecular dynamics (1)
- Molecular rotation (1)
- Molecular simulation (1)
- Molekulardynamik (1)
- Molekulare Simulation (1)
- Monte-Carlo simulation (1)
- Monte-Carlo-Simulation (1)
- OFDM-based DCSK (1)
- OFDM-based SR-QCSK (1)
- Onlinejournalismus (1)
- Organic compounds and Functional groups (1)
- Orthogonal chaotic vector shift keying (1)
- Pro-MINT-us (1)
- Qualitätspakt Lehre (1)
- Quantum mechanical methods (1)
- Remote laboratory (1)
- SOFIA (GREAT) (1)
- Social Media (1)
- THz astronomy (1)
- Thermodynamic data (1)
- Thermodynamische Stoffdaten (1)
- Zukunft des Journalismus (1)
- airborne (1)
- auxiliary power supply (1)
- complexity analysis (1)
- digital design (1)
- e-learning (1)
- efficiency (1)
- energy efficiency (1)
- high information rate (1)
- high resolution spectroscopy (1)
- orthogonal frequency division multiplexing (1)
- performance analysis (1)
- photovoltaic (1)
- remote-lab (1)
- video lectures (1)
- wearable photovoltaic system (1)
Messkampagnen im Projekt METPVNET zur Verbesserung der PV- Erzeugungsprognose auf Verteilnetzebene
(2018)
Solar energy plants are one of the key options to serve the rising global energy need with low environmental impact. Aerosols reduce global solar radiation due to absorption and scattering and therewith solar energy yields. Depending on the aerosol composition and size distribution they reduce the direct component of the solar radiation and modify the direction of the diffuse component compared to standard atmospheric conditions without aerosols.