Solar house [[electronic resource] ] : a guide for the solar designer / / Terry Galloway |
Autore | Galloway Terry R |
Pubbl/distr/stampa | Oxford ; ; Burlington, MA, : Architectural Press, 2004 |
Descrizione fisica | 1 online resource (225 p.) |
Disciplina | 728.0472 |
Soggetto topico |
Solar houses - Design and construction
House construction - Environmental aspects |
Soggetto genere / forma | Electronic books. |
ISBN |
1-136-36602-4
1-281-00907-5 9786611009076 1-4175-3729-9 0-08-048101-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Solar House: A Guide for the Solar Designer; Copyright Page; Contents; Foreword; Preface; Acknowledgements; List of figures; List of tables; Disclaimer; Dedication; 1. Goal of this guide; 1.1 Users of this guide book; 1.2 Solar is a critical part of the global renewables mix; 1.3 Energy futures; 1.4 Environmental philosophy; 1.5 New construction or rehab; 1.6 Examples of the design process; 1.7 Business philosophy; 2. Site location; 2.1 Solar insolation; 2.2 Weather and microclimates; 2.3 Heating/cooling needs; 2.4 PV power production
3. Thermal mass - heated by solar and by ground-coupled 3.1 Amount and distribution of thermal mass; 3.2 Thermal energy storage; 3.3 Re-radiation and release of heat at night or in cloudy weather; 3.4 Thermal mass - heated/cooled by ground-coupling; 3.5 Passive solar home - putting together the solar effects; 4. Attached greenhouse passive heating; 4.1 Split greenhouse design; 4.2 Fixed section - the solarium; 4.3 Controlled vent section - the solar greenhouse; 4.4 Vegetables; 4.5 Starting early seed plants; 5. Domestic hot water; 5.1 House DHW usage patterns; 5.2 DHW tank storage capacity 5.3 Plumbing configuration 5.4 Insulation; 5.5 Temperature monitoring locations; 5.6 Controls; 6. Combined DHW and swimming pool heating; 6.1 Synergistic relationship; 6.2 Collector capacity; 6.3 Swimming season and pool temperature; 6.4 Smart controls; 6.5 Solar PVs to supply power to swimming pool pump and chlorinator; 7. Space heating; 7.1 Seasonal heat demand; 7.2 Solar thermal collector heat utilization in winter; 7.3 Design of building envelope; 7.4 Radiant floors; 7.5 Living comfort; 7.6 Geothermal heat pump and location of underground coils; 7.7 Thermal zone controls 7.8 Wood fireplace backup heat 7.9 Ceiling fans in wall upflow; 7.10 Ambiance; 8. Space cooling; 8.1 Cooling radiant floors is not recommended; 8.2 Nocturnal cooling strategy; 8.3 PV-powered attic fan is only a part-solution; 8.4 Ceiling fans in wall downflow; 8.5 Geothermal heat pump cooling of room air; 8.6 Thermal transient/capacity of ground coils; 8.7 Thermal zone controls; 9. PV electric power; 9.1 Grid-connected, net-metering, and Time-Of-Use pricing; 9.2 Stand-alone systems and energy storage options; 9.3 Sizing PV for house loads; 9.4 Load shifting options 9.5 PV collectors with integral hot water heating (PV/T)9.6 Present research leading to cheaper/high efficiency future PV collectors; 10. Annual energy use; 10.1 Berkeley house; 10.2 Comparison of EU and US; 11. Maintenance saves money; 11.1 Preventative maintenance schedule; 11.2 Stable major suppliers; 11.3 Experience record; 12. Payback economics; 12.1 State and Federal incentives; 12.2 Tax benefits; 12.3 Payback analysis; 13. Thermal performance monitoring and control; 13.1 Real-time data display; 13.2 Archiving data; 13.3 Analyzing data trends; 13.4 Scheduling; 13.5 Adaptive controls 13.6 Optimization |
Record Nr. | UNINA-9910457301003321 |
Galloway Terry R
![]() |
||
Oxford ; ; Burlington, MA, : Architectural Press, 2004 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Solar house [[electronic resource] ] : a guide for the solar designer / / Terry Galloway |
Autore | Galloway Terry R |
Pubbl/distr/stampa | Oxford ; ; Burlington, MA, : Architectural Press, 2004 |
Descrizione fisica | 1 online resource (225 p.) |
Disciplina | 728.0472 |
Soggetto topico |
Solar houses - Design and construction
House construction - Environmental aspects |
ISBN |
1-136-36602-4
1-281-00907-5 9786611009076 1-4175-3729-9 0-08-048101-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Solar House: A Guide for the Solar Designer; Copyright Page; Contents; Foreword; Preface; Acknowledgements; List of figures; List of tables; Disclaimer; Dedication; 1. Goal of this guide; 1.1 Users of this guide book; 1.2 Solar is a critical part of the global renewables mix; 1.3 Energy futures; 1.4 Environmental philosophy; 1.5 New construction or rehab; 1.6 Examples of the design process; 1.7 Business philosophy; 2. Site location; 2.1 Solar insolation; 2.2 Weather and microclimates; 2.3 Heating/cooling needs; 2.4 PV power production
3. Thermal mass - heated by solar and by ground-coupled 3.1 Amount and distribution of thermal mass; 3.2 Thermal energy storage; 3.3 Re-radiation and release of heat at night or in cloudy weather; 3.4 Thermal mass - heated/cooled by ground-coupling; 3.5 Passive solar home - putting together the solar effects; 4. Attached greenhouse passive heating; 4.1 Split greenhouse design; 4.2 Fixed section - the solarium; 4.3 Controlled vent section - the solar greenhouse; 4.4 Vegetables; 4.5 Starting early seed plants; 5. Domestic hot water; 5.1 House DHW usage patterns; 5.2 DHW tank storage capacity 5.3 Plumbing configuration 5.4 Insulation; 5.5 Temperature monitoring locations; 5.6 Controls; 6. Combined DHW and swimming pool heating; 6.1 Synergistic relationship; 6.2 Collector capacity; 6.3 Swimming season and pool temperature; 6.4 Smart controls; 6.5 Solar PVs to supply power to swimming pool pump and chlorinator; 7. Space heating; 7.1 Seasonal heat demand; 7.2 Solar thermal collector heat utilization in winter; 7.3 Design of building envelope; 7.4 Radiant floors; 7.5 Living comfort; 7.6 Geothermal heat pump and location of underground coils; 7.7 Thermal zone controls 7.8 Wood fireplace backup heat 7.9 Ceiling fans in wall upflow; 7.10 Ambiance; 8. Space cooling; 8.1 Cooling radiant floors is not recommended; 8.2 Nocturnal cooling strategy; 8.3 PV-powered attic fan is only a part-solution; 8.4 Ceiling fans in wall downflow; 8.5 Geothermal heat pump cooling of room air; 8.6 Thermal transient/capacity of ground coils; 8.7 Thermal zone controls; 9. PV electric power; 9.1 Grid-connected, net-metering, and Time-Of-Use pricing; 9.2 Stand-alone systems and energy storage options; 9.3 Sizing PV for house loads; 9.4 Load shifting options 9.5 PV collectors with integral hot water heating (PV/T)9.6 Present research leading to cheaper/high efficiency future PV collectors; 10. Annual energy use; 10.1 Berkeley house; 10.2 Comparison of EU and US; 11. Maintenance saves money; 11.1 Preventative maintenance schedule; 11.2 Stable major suppliers; 11.3 Experience record; 12. Payback economics; 12.1 State and Federal incentives; 12.2 Tax benefits; 12.3 Payback analysis; 13. Thermal performance monitoring and control; 13.1 Real-time data display; 13.2 Archiving data; 13.3 Analyzing data trends; 13.4 Scheduling; 13.5 Adaptive controls 13.6 Optimization |
Record Nr. | UNINA-9910784330203321 |
Galloway Terry R
![]() |
||
Oxford ; ; Burlington, MA, : Architectural Press, 2004 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Solar house : a guide for the solar designer / / Terry Galloway |
Autore | Galloway Terry R |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Oxford ; ; Burlington, MA, : Architectural Press, 2004 |
Descrizione fisica | 1 online resource (225 p.) |
Disciplina | 728.0472 |
Soggetto topico |
Solar houses - Design and construction
House construction - Environmental aspects |
ISBN |
1-136-36602-4
1-281-00907-5 9786611009076 1-4175-3729-9 0-08-048101-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Solar House: A Guide for the Solar Designer; Copyright Page; Contents; Foreword; Preface; Acknowledgements; List of figures; List of tables; Disclaimer; Dedication; 1. Goal of this guide; 1.1 Users of this guide book; 1.2 Solar is a critical part of the global renewables mix; 1.3 Energy futures; 1.4 Environmental philosophy; 1.5 New construction or rehab; 1.6 Examples of the design process; 1.7 Business philosophy; 2. Site location; 2.1 Solar insolation; 2.2 Weather and microclimates; 2.3 Heating/cooling needs; 2.4 PV power production
3. Thermal mass - heated by solar and by ground-coupled 3.1 Amount and distribution of thermal mass; 3.2 Thermal energy storage; 3.3 Re-radiation and release of heat at night or in cloudy weather; 3.4 Thermal mass - heated/cooled by ground-coupling; 3.5 Passive solar home - putting together the solar effects; 4. Attached greenhouse passive heating; 4.1 Split greenhouse design; 4.2 Fixed section - the solarium; 4.3 Controlled vent section - the solar greenhouse; 4.4 Vegetables; 4.5 Starting early seed plants; 5. Domestic hot water; 5.1 House DHW usage patterns; 5.2 DHW tank storage capacity 5.3 Plumbing configuration 5.4 Insulation; 5.5 Temperature monitoring locations; 5.6 Controls; 6. Combined DHW and swimming pool heating; 6.1 Synergistic relationship; 6.2 Collector capacity; 6.3 Swimming season and pool temperature; 6.4 Smart controls; 6.5 Solar PVs to supply power to swimming pool pump and chlorinator; 7. Space heating; 7.1 Seasonal heat demand; 7.2 Solar thermal collector heat utilization in winter; 7.3 Design of building envelope; 7.4 Radiant floors; 7.5 Living comfort; 7.6 Geothermal heat pump and location of underground coils; 7.7 Thermal zone controls 7.8 Wood fireplace backup heat 7.9 Ceiling fans in wall upflow; 7.10 Ambiance; 8. Space cooling; 8.1 Cooling radiant floors is not recommended; 8.2 Nocturnal cooling strategy; 8.3 PV-powered attic fan is only a part-solution; 8.4 Ceiling fans in wall downflow; 8.5 Geothermal heat pump cooling of room air; 8.6 Thermal transient/capacity of ground coils; 8.7 Thermal zone controls; 9. PV electric power; 9.1 Grid-connected, net-metering, and Time-Of-Use pricing; 9.2 Stand-alone systems and energy storage options; 9.3 Sizing PV for house loads; 9.4 Load shifting options 9.5 PV collectors with integral hot water heating (PV/T)9.6 Present research leading to cheaper/high efficiency future PV collectors; 10. Annual energy use; 10.1 Berkeley house; 10.2 Comparison of EU and US; 11. Maintenance saves money; 11.1 Preventative maintenance schedule; 11.2 Stable major suppliers; 11.3 Experience record; 12. Payback economics; 12.1 State and Federal incentives; 12.2 Tax benefits; 12.3 Payback analysis; 13. Thermal performance monitoring and control; 13.1 Real-time data display; 13.2 Archiving data; 13.3 Analyzing data trends; 13.4 Scheduling; 13.5 Adaptive controls 13.6 Optimization |
Record Nr. | UNINA-9910809957303321 |
Galloway Terry R
![]() |
||
Oxford ; ; Burlington, MA, : Architectural Press, 2004 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|