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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

DELPHIN 6 Climate Data File Specification, Version 1.0

Nicolai, Andreas 03 April 2017 (has links) (PDF)
This paper describes the file format of the climate data container used by the DELPHIN, THERAKLES and NANDRAD simulation programs. The climate data container format holds a binary representation of annual and continuous climatic data needed for hygrothermal transport and building energy simulation models. The content of the C6B-Format is roughly equivalent to the epw-climate data format.
2

DELPHIN 6 Climate Data File Specification, Version 1.0

Nicolai, Andreas January 2017 (has links)
This paper describes the file format of the climate data container used by the DELPHIN, THERAKLES and NANDRAD simulation programs. The climate data container format holds a binary representation of annual and continuous climatic data needed for hygrothermal transport and building energy simulation models. The content of the C6B-Format is roughly equivalent to the epw-climate data format.:1 Introduction 1.1 General File Layout 1.2 Principle Data Types 2 Magic Header and File Version 2.1 Version Number Encoding 3 Meta Data Section 4 Data Section 4.1 Cyclic annual data 4.2 Non-cyclic/continuous data
3

Influência do clima no desempenho energético de condicionador de ar com tecnologia VRF em condição de carga parcial para hotéis

Xavier, Ademilson dos Santos 13 October 2016 (has links)
Submitted by Silvana Teresinha Dornelles Studzinski (sstudzinski) on 2017-02-08T12:58:24Z No. of bitstreams: 1 Ademilson dos Santos Xavier_.pdf: 9916385 bytes, checksum: 8bcbfe8f2b36b5a58781ce2518c1bb83 (MD5) / Made available in DSpace on 2017-02-08T12:58:24Z (GMT). No. of bitstreams: 1 Ademilson dos Santos Xavier_.pdf: 9916385 bytes, checksum: 8bcbfe8f2b36b5a58781ce2518c1bb83 (MD5) Previous issue date: 2016-10-13 / Nenhuma / Estudos recentes mostraram que uma grande parte da energia elétrica consumida no Brasil destina-se a edificações do setor Comercial e Público. Observando-se que o sistema de HVAC (Heating, Ventilation, and Air Conditioning) apresenta relevante papel no quadro final do consumo energético em edificações, a determinação de seus requisitos mínimos de eficiência energética torna-se o fator chave para o sucesso de qualquer programa de certificação energética em construções. Esse trabalho tem como objetivo avaliar de que forma as condições climatológicas brasileiras podem influenciar o desempenho de um sistema condicionador de ar com tecnologia VRF (Variable Refrigerant Flow) em Condições de Carga Parcial (Part Load Conditions), para uma edificação comercial. Para isso, foi desenvolvida uma metodologia capaz de identificar as localidades que foram objetos desse estudo. As cidades selecionadas foram: São Paulo (SP), Rio de Janeiro (RJ), Fortaleza (CE) e Brasília (DF). Após esta etapa, a caracterização do edifício modelo de referência (hotel) foi concretizada. Características físicas, valores de carga térmica externa e interna, e o perfil de uso (taxa de ocupação) da edificação, foram tópicos abordados. O software de simulação utilizado foi o EnergyPlus e as suas respectivas curvas e equações de desempenho foram ajustadas com base nos dados de performance dos aparelhos condicionadores de ar que foram selecionados. O fabricante Toshiba foi escolhido. A performance dos equipamentos VRF foi analisada através de resultados como Carga Térmica global, Condição de Carga Plena, Condições de Carga Parcial, PLR (Part Load Ratio), COP (Coefficient of Performance) e ICOP (Coeficiente Integrado de Performance). Os resultados mostraram que apesar da Condição de Carga Plena (Full Load Condition) ser recomendada para dimensionar o sistema de HVAC, quando o objetivo principal for avaliar o desempenho energético desse sistema (HVAC) para um período mais longo de operação essa análise deve ser realizada através das Condições de Carga Parcial (Part Load Conditions). Para as quatro localidades estudadas os valores de desempenho obtidos através das simulações mostram que os equipamentos de ar condicionado VRF utilizados atingiram o seu coeficiente máximo de performance (COPmáx) na condição de 50% de PLR e um ICOP de 6,8, contra um COP de 3,4 na condição nominal e um ICOP de 3,7 de acordo com o Regulamento Técnico da Qualidade do Nível de Eficiência Energética de Edifícios Comerciais, de Serviço e Públicos, RTQ-C. / Currently studies have been shown that a large part of the electricity consumed in Brazil is intended to buildings Commercial and Public Sector. The HVAC system (Heating, Ventilation, and Air Conditioning) shows a significant role in the final frame of the energy consumption in buildings, determining its minimum requirements for energy efficiency becomes the key factor for the success of any program energy certification of buildings. This work aims to analyze how the Brazilian climatic conditions can influence the performance of air conditioner systems with VRF technology (Variable Refrigerant Flow) in the Part-Load Condition for a commercial building. Therefore a methodology was developed to identify the locations that were the subject of this study. The cities selected are: São Paulo (SP), Rio de Janeiro (RJ), Fortaleza (CE) and Brasília (DF). In addition the building characteristics have completed, external and internal thermal load values with their use profile have been analyzed. The software applied was EnergyPlus and their performance curves and equations have been adjusted according with the performance data of air conditioning units selected. The manufacturer Toshiba has been chosen. The VRF equipment performance was analyzed through results as Full-Load Condition, Part-Load Conditions, Part Load Ratio (PLR), COP and COP (Integrated Coefficient of Performance). The main results have showed that despite the Full-Load Condition is recommended to dimension the HVAC system, when the objective is the evaluation of the energy performance for a longer operation period this analysis should be carried out through Part-Load Conditions. For all of the four cities have studied the performance values obtained from the simulations show that the air-conditioning equipment VRF used reached their maximum performance coefficient (COPmáx) at 50% of PLR and ICOP 6.8, against a COP 3.4 in nominal condition and ICOP of 3.72 according to the Quality Technical Regulation of the Energy Efficiency Level Commercial Buildings, and Public Service, RTQ-C.

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