Karine Bouty scite author profile

Karine Bouty

3Publications

7Citation Statements Received

102Citation Statements Given

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102

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Laboratoire Optimisation de la Conception et Ingénierie de l'Environnement, Université Savoie Mont Blanc

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Numerical Validation of the Radiative Model for the Solar Cadaster Developed for Greater Geneva

et al. 2021

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The achievement of the targets for reducing greenhouse gas emissions set by the Paris Agreements and the Swiss federal law on the reduction of greenhouse gas emissions (CO2 law) requires massive use of renewable energies, which cannot be achieved without their adoption by the general public. The solar cadaster developed as part of the INTERREG G2 Solar project is intended to assess the solar potential of buildings at the scale of Greater Geneva—for both industrial buildings and for individual residential buildings—at a resolution of 1 m. The new version of the solar cadaster is intended to assess the solar potential of roofs, as well as that of vertical facades. The study presented here aims to validate this new version through a comparison with results obtained with two other simulation tools that are widely used and validated by the scientific community. The good accordance with the results obtained with ENVI-met and DIVA-for-Rhino demonstrates the capability of the radiative model developed for the solar cadaster of Greater Geneva to accurately predict the radiation levels of building facades in configurations with randomly distributed buildings (horizontally or vertically).

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Identification of existing tools and workflows for solar neighborhood planning

Baker¹,

Monteiro²,

Boccalatte³

et al. 2022

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Planning for sustainable neighborhoods is a high priority for many cities. It is therefore important to take the right decisions during the planning phase to ensure that important aspects are considered. One of these important aspects is to consider the harvesting of solar energy in the best possible way. It is however difficult to define the best ways to exploit the incoming solar energy. Solar energy can be used by means of active solar energy production, passively by means of daylighting buildings or outside buildings on the ground for direct solar access or thermal comfort. This different usage can sometimes be conflicting (for example at a building level, in order to maximize the photovoltaic production, it may be necessary to use all the surfaces, therefore preventing the access to daylight). The access to daylight in the street is appreciated during cold days, but shading is preferred during the hotter days.

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Solar Cadaster in Urban Area Including Verticality

Bouty¹

2019

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Karine Bouty

Numerical Validation of the Radiative Model for the Solar Cadaster Developed for Greater Geneva

Identification of existing tools and workflows for solar neighborhood planning

Solar Cadaster in Urban Area Including Verticality

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