Energy efficiency improvement of hybrid ground coupled HVAC systems from thermal energy generation and storage management
- Pardo García, Nicolás
- Pedro Fernández de Córdoba Castellá Doktorvater/Doktormutter
- Álvaro Montero Reguera Doktorvater/Doktormutter
- Javier Fermín Urchueguía Schölzel Doktorvater/Doktormutter
Universität der Verteidigung: Universitat Politècnica de València
Fecha de defensa: 20 von Juli von 2009
- Luisa F. Cabeza Fabra Präsident/in
- Manuel Salmerón Sánchez Sekretär/in
- Francisco Román Villatoro Machuca Vocal
- Julio Martos Torres Vocal
- Belen Zalba Nonay Vocal
Art: Dissertation
Zusammenfassung
Nowadays, the increasing of the energy consumption is producing serious changes in the natural environment as the global warming. Around the 40% of all greenhouse gas emissions in developed countries come from the building equipments, where approximately 60% are produced by the air conditioning systems. In this context, ground coupled heat pumps are an attractive solution as air conditioning systems in commercial buildings due to their higher efficiency compared with the conventional air to water heat pump. In fact, the American Environmental Protection Agency recognizes ground coupled heat pump systems among the most efficient and comfortable systems available today. Nevertheless, the energy efficiency of the ground coupled heat pumps could be improve by means a properly management of the di erent equipments which form them. The objective of the research of this PhD thesis will be the development of management strategies in the air conditioning system based on the ground coupled heat pumps to improve its energy efficiency at the same time that we keep the thermal comfort in the conditioned areas. The energy management strategies will be oriented in the three ways: combining of several generation systems (ground coupled heat pump and air to water heat pump), decoupling thermal generation from thermal distribution (by means a thermal storage device) and strategies based on the management of the devices of the system (by means of continuous regulation of them). From the results of this research we can obtain two main conclusions. The rst one is that a properly management of a system composed by a thermal storage, an air to water heat pump and a ground coupled heat pump produce an improvement of the energy efficiency around a 40% respect to a conventional system and around a 18% respect to a geothermal system. The second main conclusion of this thesis is that a properly management strategy in continuous regulation of the devices which are part of a ground coupled ..