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Reporte final del desarrollo de la DEEVi-

The Passive House Planning Package (PHPP) is an integrated tool for energy balance calculations including all energy flows within the system boundary. The programme is based in large part on European an international norms and is a desing tool for buildings with very low energy demand.

Dettagli Bibliografici
Enti autori: Instituto del Fondo Nacional de la Vivienda para los Trabajadores, Passive House Institute
Natura: RE
Lingua:spagnolo
Pubblicazione: Ciudad de México, México Infonavit 2014
Soggetti:
Diseño bioclimático > Innovaciones tecnológicas
Eficiencia energética
Energía renovable
Vivienda ecológica
Accesso online:https://infonavit.smart-ed.mx/cgi-bin/koha/opac-retrieve-file.pl?id=125c0096b3f06aa0163afdb1876b755f
Sommario:
  • 1.Introduction
  • 2. PHPP Adaptation ; 2.1.Radiation balance of opaque building elements ; 2.2.Summary of U-values in U-list worksheet ; 2.3.Direct input in U-list worksheet ; 2.4.Input of orientation for windows and walls ; 2.5.Integration of Shading and Shading-S worksheets ; 2.6.Input of specific summer data ; 2.7.Summer ventilation strategies against overheating ; 2.8.Estimation of overheating frequency from calculated summer temperatures ; 2.9.Ventilation in summer ; 2.10.Enthalpy of vaporization ; 2.11.Consideration of the effects of vapour diffusion through exterior building elements ; 2.12.Dehumidification ; 2.13.Generation of calculation methods for radiation barriers (ventilated roofs, as an example) ; 2.14.Evaluation and extension of calculation of shading factors for tropical climate ; 2.15.Calculation of heat loads by DHW distribution or storage and heat emissions of electricity units within the summer case ; 2.16.Addition of simplified calculation of primary energy savings delivered byphotovoltaic panels
  • 3 Evaluation of Mexican Basics ; 3.1.Acceptable indoor temperatures / humidity ; 3.2.Occupancy ; 3.3.Internal heat gains / humidity gains ; 3.4.Domestic hot water ; 3.5.Primary energy values ; 3.6.Standard electricity household units ; 3.7.Evaluation of ventilation and airtightness ; 3.8.Evaluation of Mexican building elements
  • 4 Climate Data ; 4.1.Climate zones in Mexico ; 4.2.Representative locations ; 4.3.Data analysis
  • 5 Validation of the PHPP summer algorithms ; 5.1.Validation approach ; 5.2.Brief description of the building model ; 5.3.Comparison of stationary and dynamically calculated results ; 5.4.Bypass control ; 5.5.Summer ventilation ; 5.6.Dehumidification ; 5.7.Sensible cooling ; 5.8.Low insulation levels ; 5.9.Summary of the PHPP/DEEVi https://infonavit.smart-ed.mx/cgi-bin/koha/opac-retrieve-file.pl?id=4c2f8fbfe54e23aaaaef2035a05c8a81summer validation https://infonavit.smart-ed.mx/cgi-bin/koha/opac-retrieve-file.pl?id=4c2f8fbfe54e23aaaaef2035a05c8a81
  • 6 Coordination of adaptation and simplification ; 6.1.Coordination trip ; 6.2.Multiple registration of houses / registration of packages ; 6.3.Baseline calculation ; 6.4.RUV registration system process ; 6.5.Facilitation of verification ; 6.6.Consideration of ceiling fans ; 6.7.Verification requirements ; 6.8.Consideration of eco-technologies ; 6.9.Multiple prototype registration ; 6.10.Security issue
  • 7 NOM020 calculation ; 7.1.Compliance with the norm ; 7.2.Automatic retrieval of data entered into DEEVi for the NOM-020-ENER-2011 calculation ; 7.3.General data and calculation values (datos generales y valores para el cálculo) 7.4.Calculation of shading factors ; 7.5.Calculation of K-Value (coeficiente-K) ; 7.6.Reference building (edificio de referencia) ; 7.7.Projected building (edificio proyectado) ; 7.8.Automatic determination of possible compliance with norm and etiquette
  • 8 PHPP adaptation and simplification for Mexico ; 8.1.Elimination of calculations and input areas for non-residential buildings ; 8.2.Elimination of international climate data and development of climate zone climate data sets for Mexico ; 8.3.Elimination of pre-entered specific building component data and replacement by Mexican data 8.4.Elimination of input sheets for the calculation of heating systems, heating and cooling load ; 8.5.Ground calculation ; 8.6.Simplification of thermal bridge loss coefficient calculation ; 8.7.Simplification of windows input ; 8.8.Simplification of shading input by generation of default values for horizontal shading ; 8.9.Simplification of U-Value input of U-values ; 8.10.Simplification of ventilation input ; 8.11.Simplification of input of cooling units ; 8.12.Parametric calculation of 4 orientations and baseline case calculation ; 8.13.Hidden worksheets in DEEVi ; 8.14.Import-/Export macros ; 8.15.Hipoteca Verde Button for specific calculation of Hipoteca Verde wall ; 8.16.Input of eco-technologies according to Infonavit Hipoteca Verde lists into the DEEVi ; 8.17.Graphic display of different results within the result sheet ; 8.18.Implementation of a registration number ; 8.19.Air change rate by infiltration defaults in the DEEVi ; 8.20.DEEVi user's manual
  • 9.Spanish Translation of DEEVi ; 9.1.Spanish translation of the DEEVi tool ; 9.2.Spanish translation of the DEEVi Manual
  • 10.Conclusions ; 10.1.Recommendations and next steps, DEEVi ; 10.2.Recommendations and next steps, energy efficiency in Mexico
  • 11.Reference
  • Annex 1.The dynamic building simulation software DYNBIL
  • Annex 2.Comparison of PHPP and DEEVi with DesignBuilder results
  • Annex 3.Comparison between CFE data and PHPP calculation results
  • Annex 4.Mexican climate data
  • Annex 5.Component lists included in DEE

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