Energy Efficiency Feasibility Study of a University Auditorium
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Preise | 2017 | 2018 | 2019 |
---|---|---|---|
Schnitt | Fr. 34.90 (€ 35.69)¹ | Fr. 35.11 (€ 35.90)¹ | Fr. 33.87 (€ 34.64)¹ |
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Energy Efficiency Feasibility Study of a University Auditorium (2017)
DE PB NW
ISBN: 9783330051812 bzw. 3330051817, in Deutsch, LAP Lambert Academic Publishing Mrz 2017, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Von Händler/Antiquariat, Agrios-Buch [57449362], Bergisch Gladbach, Germany.
Neuware - The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. 72 pp. Englisch.
Von Händler/Antiquariat, Agrios-Buch [57449362], Bergisch Gladbach, Germany.
Neuware - The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. 72 pp. Englisch.
2
Energy Efficiency Feasibility Study of a University Auditorium (2017)
DE PB NW
ISBN: 9783330051812 bzw. 3330051817, in Deutsch, LAP Lambert Academic Publishing Mrz 2017, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Von Händler/Antiquariat, AHA-BUCH GmbH [51283250], Einbeck, Germany.
Neuware - The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. 72 pp. Englisch, Books.
Von Händler/Antiquariat, AHA-BUCH GmbH [51283250], Einbeck, Germany.
Neuware - The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. 72 pp. Englisch, Books.
3
Symbolbild
Energy Efficiency Feasibility Study of a University Auditorium
DE PB NW
ISBN: 9783330051812 bzw. 3330051817, in Deutsch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkosten nach: Deutschland, Versandkostenfrei.
Von Händler/Antiquariat, Sparbuchladen, [3602074].
Neuware - The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. -, Taschenbuch, Neuware, 220x150x4 mm, 124g.
Von Händler/Antiquariat, Sparbuchladen, [3602074].
Neuware - The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. -, Taschenbuch, Neuware, 220x150x4 mm, 124g.
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Energy Efficiency Feasibility Study of a University Auditorium
~EN NW AB
ISBN: 9783330051812 bzw. 3330051817, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Deutschland, Lieferzeit: 5 Tage.
The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings.
The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings.
5
Energy Efficiency Feasibility Study of a University Auditorium (2017)
DE PB NW
ISBN: 9783330051812 bzw. 3330051817, in Deutsch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkosten nach: Deutschland, Versandkostenfrei.
Von Händler/Antiquariat, Syndikat Buchdienst, [4235284].
The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. Taschenbuch / Paperback, Neuware, H: 220mm, B: 150mm.
Von Händler/Antiquariat, Syndikat Buchdienst, [4235284].
The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. Taschenbuch / Paperback, Neuware, H: 220mm, B: 150mm.
6
Energy Efficiency Feasibility Study of a University Auditorium
~EN PB NW
ISBN: 9783330051812 bzw. 3330051817, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Energy Efficiency Feasibility Study of a University Auditorium: The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. Englisch, Taschenbuch.
Energy Efficiency Feasibility Study of a University Auditorium: The increasing costs of fossil fuels and the environmental problems associated with its exploration and use is a global concern. Worldwide, one of the major consumers of fossil-fueled energy are buildings - their lighting, heating or cooling and hot water supply systems. The focus of this work is on the possible energy savings in a University auditorium, which is highly dependent on grid supply or diesel generators, as there is no natural lighting and ventilation in the main seating areas of the building. It seeks to identify the energy use patterns, and highlight recommendations which would reduce the energy consumption and electricity bills. It also proposes a design for a solar photovoltaic system which can power the lighting loads. The results of this work highlights a lighting retrofit project with a payback period of 2.787 years and possible power savings of 88.18% in the lighting loads. The possible savings in the HVAC loads is 71.36%. This work is useful for those seeking to understand energy efficiency retrofits in buildings, energy managers proposing energy projects or those who want to seek more knowledge on energy use in buildings. Englisch, Taschenbuch.
7
Energy Efficiency Feasibility Study of a University Auditorium
~EN PB NW
ISBN: 3330051817 bzw. 9783330051812, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
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