Using CAD software to simulate PV energy yield – The case of product integrated photovoltaic operated under indoor solar irradiation

Reich, N.H.; Sark, W.G.J.H.M. van; Turkenburg, W.C.; Sinke, W.C.

doi:10.1016/j.solener.2010.05.015

Cited by 23 publications

(15 citation statements)

References 13 publications

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“…However, this approach was not integrated into CAD environment and therefore not very useful from architects' point of view. Furthermore, slow computation time caused by old inefficient methods of ray tracing approach caused delays and discontinuity to the design process [200] [201]. To address this issue, rasterization has found to be used in a real-time manner, simulating irradiance for PV products and BIPV in a virtual reality environment [202].…”

Section: Building To Urban Scalementioning

confidence: 99%

State-of-the-art review of solar design tools and methods for assessing daylighting and solar potential for building-integrated photovoltaics

Jakica

2018

Renewable and Sustainable Energy Reviews

121

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Solar design can take many different forms across disciplines with different methodologies and goals, ranging from acquiring architectural visual effects to assessing illumination for daylighting and solar radiation potential on building surfaces for PV implementation. Furthermore, a capability of solar design methodologies and tools to accurately and time efficiently simulate light phenomena can greatly influence performance results and design decisions. This is especially important in complex cases such as dense urban settings with the significant surface shadowing, and vertical facades including daylighting devices and photovoltaics. Consequently, choosing a suitable approach and tool for each design phase is essential for achieving unique design and performance goals. This paper was carried out within the framework of IEA-PVPS Task 15 -BIPV and it aims to facilitate this decision for all parties involved in solar design process. Here presented, is an overview of almost 200 solar design tools, analyzing their numerous features regarding accuracy, complexity, scale, computation speed, representation as well as building design process integration in about 50 2D/3D, CAD/CAM and BIM software environments. Furthermore, tools from various fields have been analysed in a broad interdisciplinary context of solar design with a particular attention for being used for Daylighting and Building-Integrated Photovoltaics (BIPV) purposes. This approach should open many new perspectives on a potentially wider multidisciplinary usage and interpretation of solar design tools, sometimes well beyond their initial scope of work.

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Section: Building To Urban Scalementioning

confidence: 99%

State-of-the-art review of solar design tools and methods for assessing daylighting and solar potential for building-integrated photovoltaics

Jakica

2018

Renewable and Sustainable Energy Reviews

121

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“…The study of the performance of the so--called Product Integrated PhotoVoltaics (PIPV) 16 is twofold. Firstly, to investigate the performance and electrical characteristics of the PV device itself; secondly to study the effectiveness of light harvesting, which is also the main focus and aim of our work.…”

Section: Simulation Of Solar Light Harvestingmentioning

confidence: 99%

Simulating the integration of photovoltaic technology on the modern infantry soldier using modelling and simulation: scenarios and guidelines

Paraskevopoulos

Tsekleves

2012

Journal of Defense Modeling & Simulation

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The operational range and manoeuvrability of the modern infantry soldier is restricted by the overall load and bulk of equipment ranging from 50 to 75 kilos. Today's soldiers rely heavily on batteries to meet their power requirements, which make up for 25% of the overall load. This results in a significant increase on soldier's physical stress and cognitive burden. Recent developments in renewable energy and more particularly the evolution of very thin and flexible wearable photovoltaic devices provide promising solutions for the application of such technologies on the infantry soldier. However since these flexible substrate devices are still under development or produced at a very small scale their application and use has to be simulated prior to integrating to the infantry soldier. Such simulations need to take into account the specific requirements and different fields of operation of the infantry soldier, in the context of weather, date and time, global location and for different military mission environments. This paper presents a number of simulations performed for a wide range of scenarios in the context of the Solar Soldier project. It discusses the key results, offering a set of guidelines for the positioning and integration of such renewable energy technology on the modern infantry soldier. Moreover, this paper suggests future improvements on the methodology and optimisation of the procedures.

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“…Finally, PV-generated charge was assumed to be lowered by battery charge efficiency (90% constant), battery self-discharge (15% per month), and the efficiency of electronic circuitries (90% constant), which also provides maximum power point tracking (with 100% accuracy assumed). To deal with the many parameters, we developed a computer tool to simulate the energy flows in PV-powered consumer systems (Reich et al, 2010b).…”

Section: E22 Energy Balance Scenariosmentioning

confidence: 99%

Case E: Design of a Solar‐Powered Wireless Computer Mouse

Sark

Reich

2012

The Power of Design

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Using CAD software to simulate PV energy yield – The case of product integrated photovoltaic operated under indoor solar irradiation

Cited by 23 publications

References 13 publications

State-of-the-art review of solar design tools and methods for assessing daylighting and solar potential for building-integrated photovoltaics

State-of-the-art review of solar design tools and methods for assessing daylighting and solar potential for building-integrated photovoltaics

Simulating the integration of photovoltaic technology on the modern infantry soldier using modelling and simulation: scenarios and guidelines

Case E: Design of a Solar‐Powered Wireless Computer Mouse

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