.BuildSysPro.Systems.Solar.PV.BaseClasses.Thermal.ThermalRecordsPV.TechnoCrystallineSilicon .BuildSysPro.Systems.Solar.PV.BaseClasses.Thermal.ThermalRecordsPV.TechnoCrystallineSiliconRecord for the crystalline silicon technology
Hypothesis and equations
none
Bibliography
Data from the litterature:
A thermal model for photovoltaic systems, A.D. Jones and C.P. Underwood, Solar Energy Vol.70, pp.349-359, 2001
A thermal model for photovoltaic panels under varying atmospheric conditions, S. Armstrong and W.G. Hurley, Applied Thermal Engineering Vol.30, pp.1488-1495, 2010
Instructions for use
None
Known limits / Use precautions
None
Validations
Validated model - Amy Lindsay 03/2013
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Licensed by EDF under a 3-clause BSD-license
Copyright © EDF 2009 - 2023
BuildSysPro version 3.6.0
Author : Amy LINDSAY, EDF (2013)
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record TechnoCrystallineSilicon = BuildSysPro.Systems.Solar.PV.BaseClasses.Thermal.ThermalRecordsPV.RecordTechnoPV(n = 7, ncell = 3, mat = {BuildSysPro.Utilities.Records.GenericSolid(lambda = 1.8, rho = 3000, c = 500), BuildSysPro.Utilities.Records.GenericSolid(lambda = 0.35, rho = 960, c = 2090), BuildSysPro.Utilities.Data.Solids.Silicon(), BuildSysPro.Utilities.Records.GenericSolid(lambda = 0.35, rho = 960, c = 2090), BuildSysPro.Utilities.Records.GenericSolid(lambda = 0.2, rho = 1200, c = 1250), BuildSysPro.Utilities.Data.Solids.Aluminium(), BuildSysPro.Utilities.Records.GenericSolid(lambda = 0.2, rho = 1200, c = 1250)}, epaisseur = {0.003, 0.0005, 0.00025, 0.0005, 0.0001, 0.00001, 0.0001}, m = {1, 2, 1, 2, 1, 1, 1}, cp_surf = 5723, eps_fg = 0.91, eps_bg = 0.85, alpha_tau_n = 0.9);