Presentations: |
| 5CV.1.1 Influence of the Module Temperature on the Performance and EL-Image of Precracked PV-Modules C. Buerhop-Lutz, ZAE Bayern, Erlangen, Germany |
| 5CV.1.2 Stress Test Methods to Predict Outdoor Performance of Monofacial and Bifacial Module Designs W.J. Gambogi, DuPont, Wilmington, USA |
| 5CV.1.3 The Influence of Module Structure on Degradation Modes of Multi-Crystalline Silicon Photovoltaic Modules by Dynamic Mechanical Loading Test Y. Ino, AIST, Koriyama, Japan |
| 5CV.1.4 Temperature and Power Yield Difference of N-Mono Si Halved Cell Modules in Outdoor Shading Testing J. Jiang, Yingli Green Energy, Baoding, China |
| 5CV.1.5 Evaluation of Reliability and Field Performance of a Novel Shading-Free PV Module T. Feng, Yingli Green Energy, Baoding, China |
| 5CV.1.6 Early Potential Induced Degradation (PID) Detection in the Field: Solar Cell Shunt Resistance Measurement at Different Bias Conditions M. Florides, University of Cyprus, Nicosia, Cyprus |
| 5CV.1.8 Importance of Power Stabilization of Crystalline PV Modules R. Ebner, AIT, Vienna, Austria |
| 5CV.1.9 Architecture, Design and Simulation for a Shade Resilient Smart Module S.Z. Mirbagheri Golroodbari, Utrecht University, Utrecht, Netherlands |
| 5CV.1.10 Resistance of PID Sensitive PV Modules to Alternating High Voltage Stress (A-HVS) B. Jaeckel, Fraunhofer CSP, Halle, Germany |
| 5CV.1.11 Outdoor Performance Characterization of a Novel Shadow Tolerant Module K. Sinapis, SEAC, Eindhoven, Netherlands |
| 5CV.1.12 Comparative Assessment of Anti-soiling Nanocoated Photovoltaic Modules in an Arid Desert Environment A.T. Al-Asfour, KISR, Safat, Kuwait |
| 5CV.1.13 Assessment of Technology- and Weather-Specific Temperature Losses of Various Photovoltaic Technologies C. Camus, ZAE Bayern, Erlangen, Germany |
| 5CV.1.15 Novel Computational Fluid Dynamics Modeling of Spatial Convective Heat Transfer over PV-Modules Mounted on an Inclined Surface with an Underlying Air Gap M.G. Chowdhury, imec, Heverlee, Belgium |
| 5CV.1.16 The Study on Anti-PID Performance of High Efficiency Bifacial Cell Module X. Cai, Talesun Solar, Suzhou, China |
| 5CV.1.17 Annual Degradation Rates of Crystalline Silicon Photovoltaic Modules in Different Climatic Zones in China H. Song, CPVT, Wuxi, China |
| 5CV.1.18 Effect of Temperature in Potential Induced Degradation Recovery Process of PV Modules with the Application of Reverse Bias Pulse Voltage H. Win, Gifu University, Gifu, Japan |
| 5CV.1.19 Potential-Induced Degradation (PID) of n-Type and p-Type Silicon Solar Cells M. Schwark, AIT, Vienna, Austria |
| 5CV.1.21 New Developments in Modeling and Numerical Simulations of Temperature and Yield of Commercial Photovoltaics Panels under Desert Environment S. Ahzi, QEERI, Doha, Qatar |
| 5CV.1.23 Reducing Uncertainty in Outdoors PV Module Characterisation C.H. Rossa, UPM, Madrid, Spain |
| 5CV.1.24 Towards Efficient and Accurate Energy Yield Modelling of Bifacial PV Systems I.T. Horvath, imec, Leuven, Belgium |
| 5CV.1.25 BIPV Modules with Plated Bifacial n-PERT Cells and Smart Wire Interconnection: Manufacturing, Monitoring and Energy Yield Analysis A.S.H. van der Heide, imec, Genk, Belgium |
| 5CV.1.27 Quantification of the Infra-Red Response of Various Cell Technologies on the Energy Yield H. Goverde, imec, Genk, Belgium |
| 5CV.1.28 Adaptable PV Performance Modelling for Industrial Needs S. Ransome, Steve Ransome Consulting, Kingston upon Thames, United Kingdom |
| 5CV.1.29 Investigation on the Quality of Adhesive Joints of Shingled Solar Cells by Accelerated Lifetime Testing I. Ullmann, ISC, Konstanz, Germany |
| 5CV.1.30 IV Measurement of Bifacial PV Module Using Monofacial Illumination by Applying Dynamic Bifaciality Coefficients A.N. Alquennah, KISR, Safat, Kuwait |
| 5CV.1.31 Performance Simulations of a 72-Cell, a-Si HET Module with Different Tab-Interconnection Geometries J. Eymard, CEA, Le Bourget du Lac, France |
| 5CV.1.32 Current-Voltage Characteristic Driven Yield Investigation of Bifacial Modules D. Daßler, Fraunhofer CSP, Halle, Germany |
| 5CV.1.33 Novel Power-Enhancing Ribbon for Solar Cell Interconnection M. König, Heraeus, Hanau, Germany |
| 5CV.1.34 Super Lightweight Flexible HJT Solar Panels E. Terukov, R&D Center TFTE, St. Petersburg, Russian Federation |
| 5CV.1.35 Influence of Near Field Shadowing on the Performance Ratio of Thin Film Modules S. Wendlandt, PI Berlin, Berlin, Germany |
| 5CV.1.36 Energy Yield Comparison between Bifacial and Monofacial PV Modules: Real World Measurements and Validation with Bifacial Simulations J. Bonilla Castro, TÜV Rheinland Energy, Cologne, Germany |
| 5CV.1.37 Techno-Commercial Performance Evaluation of 5 Different PV Technologies in Same Weather Conditions - A One Year Practical Case Study R. Bohra, Infosys, Bangalore, India |
| 5CV.1.38 A Novel Heat Dissipating Material for Enhancing the Performance of Photovoltaic Panels C.F. Hsieh, ITRI, Hsinchu, Taiwan |
| 5CV.1.40 Multiscale Analysis of Silicon-Based Photovoltaic Module Performance in a 19 Years-Old Power Plant M. Li, Girasol Energy, Tokyo, Japan |
| 5CV.1.41 Comprehensive Study of Reliability of Photovoltaic Modules of Various Configuration under Static and Dynamic Mechanical Loading Conditions Using Finite Element Analysis S. Patwardhan, IIT Bombay, Mumbai, India |
| 5CV.1.42 From Bifaciality to Yield: Different Bifacial Cell Technologies May Differ Even More in Annual Outdoor Performance C. Reise, Fraunhofer ISE, Freiburg, Germany |
| 5CV.1.43 A 3D Stress Analysis of Silicon Wafer Cells during Lamination W.M. Song, SUTD, Singapore, Singapore |
| 5CV.1.44 Water Diffusion Simulation of the Photovoltaic Laminate Based on Gravimetric Measurement of Packaging Materials A. Dadaniya, IIT Dehli, New Dehli, India |
| 5CV.1.45 Investigation and Analysis of Bifacial Photovoltaics Modules with Reflective Layer E. Sng, REC Solar, Singapore, Singapore |
| 5CV.1.46 Benchmarking Light and Elevated Temperature Induced Degradation (LeTID) R. Gottschalg, Fraunhofer CSP, Halle (Saale), Germany |