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Design and construction of bioclimatic wooden greenhouses . Volume 2 : design of construction: structure and systems / / Gian Luca Brunetti
| Design and construction of bioclimatic wooden greenhouses . Volume 2 : design of construction: structure and systems / / Gian Luca Brunetti |
| Autore | Brunetti Gian Luca |
| Pubbl/distr/stampa | London, England ; ; Hoboken, New Jersey : , : ISTE, Ltd. : , : John Wiley & Sons, Incorporated, , [2023] |
| Descrizione fisica | 1 online resource (275 pages) |
| Disciplina | 728.96 |
| Soggetto topico | Greenhouses - Design and construction |
| ISBN |
1-394-19213-4
1-394-19211-8 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Introduction -- Chapter 1. Light Frames (Wooden Frames) -- 1.1. Commonest solution: platform-frame-like or balloon-frame-like curtain walls framed with studs/mullions -- 1.2. Types of connections in wooden construction -- 1.2.1. Head-to-head butt joint -- 1.2.2. Head-to-side butt joint -- 1.2.3. Lap joints -- 1.2.4. Nailed connections -- 1.2.5. Screwed connections -- 1.2.6. Bolted connections -- 1.2.7. Tooth plate connections -- 1.2.8. Glued connections -- 1.3. Types of connections between structural sub-systems -- 1.3.1. Interfacing the frames of the front façade and the roof -- 1.3.2. Interfacing the frames of the side walls and the roof -- 1.3.3. Gable walls -- 1.3.4. Opaque enclosures -- 1.3.5. Back walls -- 1.3.6. Connection between the roof of a building and the roof of the greenhouse attached to it -- 1.4. Alternative structural solution: light-frame curtain walls supported by horizontal purlins -- 1.5. Alternative structural solution: trussed light-frame structures -- 1.5.1. Trusses and trussed portals or semi-portals orthogonal to the front façade -- 1.5.2. Light-frame trussed portals parallel to the front façade -- 1.6. Criteria for the construction of light-frame trusses and trussed portal frames -- 1.6.1. Chords, diagonals and uprights overlapped on different planes -- 1.6.2. Chords, diagonals and uprights on the same plane -- 1.6.3. Transversal connection of portal frames -- 1.6.4. Bracing strategies in light frames -- 1.7. Intermixing parts of timber frames into light frames -- 1.8. Analogies with cold-rolled light frames -- 1.9. Arched and vaulted construction in light frames -- 1.9.1. Lamella vaults -- 1.9.2. Geodesic domes -- Chapter 2. Timber Frames -- 2.1. Intermixing light-frame parts into timber frames -- 2.1.1. Light frame completely additional to the timber frame.
2.1.2. Combining timber frames and light frames -- 2.2. Connections in timber-frame greenhouses -- 2.2.1. Traditional connections in timber frames -- 2.2.2. Modern connections in timber frames -- 2.3. Structural solutions with the primary beams of the frames orthogonal to the front façade -- 2.3.1. Post-and-beam greenhouses with primary beams perpendicular to the front façade -- 2.3.2. Trussed post-and-beam greenhouses with primary beams perpendicular to the front façade -- 2.3.3. Portal frames perpendicular to the front façade -- 2.3.4. Spans of the secondary structural elements in greenhouses having the principal beams orthogonal to the main façades -- 2.3.5. Frames or portal frames, solid or trussed, parallel to the front façade -- 2.4. Pole construction -- 2.4.1. Treating timber poles for a longer life span -- 2.4.2. Solutions for cantilevering the poles from the ground -- 2.4.3. Solutions for connecting girders or beams to the poles -- 2.4.4. Pole greenhouse construction -- 2.5. Bracing strategies in timber frames -- 2.5.1. Bracing with cables or rods -- 2.5.2. Bracing with short massive diagonals -- 2.5.3. Bracing the bays with full-length diagonals connected with butt joints by means of steel plates -- 2.5.4. Bracing with full-length lap-joined diagonals -- Chapter 3. Foundations -- 3.1. Foundation walls and foundation sills -- 3.2. Construction strategies for foundation walls -- 3.2.1. Preparing the ground for a foundation wall -- 3.2.2. Boulders-and-mortar wall foundation -- 3.2.3. Brick masonry wall foundation -- 3.2.4. Conventionally mortared hollow concrete block wall foundation -- 3.2.5. Parged hollow concrete block wall foundations -- 3.2.6. Concrete foundation walls -- 3.2.7. Wooden-frame foundations -- 3.2.8. Timber foundations -- 3.2.9. Pier foundations -- 3.2.10. Insulation of the foundation wall. 3.2.11. The foundation wall as a sill -- 3.3. Drainage around the foundation wall -- 3.4. Pavements -- 3.5. Platform frame floors raised above the ground -- Chapter 4. Heating and Cooling Systems -- Watering Systems -- 4.1. Heating and cooling plants -- 4.1.1. Air-based systems -- 4.1.2. Water-based systems -- 4.2. Heat recovery via air-to-air heat exchangers -- 4.3. Passive and low-energy heating and cooling solutions based on the thermal exchange with the ground -- 4.3.1. GAHT systems -- 4.3.2. Ground-air heat exchangers - Canadian wells -- 4.3.3. Considerations about the transfer of heat to remote masses by convection -- 4.3.4. Surface air-to-ground heat exchange (experimental) -- 4.4. Auxiliary heating systems -- 4.4.1. Electric heating -- 4.4.2. Common stoves -- 4.4.3. Rocket mass stoves -- 4.4.4. Water systems coupled with burners or heat pumps -- 4.4.5. Active systems using renewable energy sources -- 4.4.6. Heat pumps -- 4.5. Auxiliary cooling systems -- 4.6. Integration of photovoltaic panels in greenhouses -- 4.7. Integration of passive solar heating panels in greenhouses -- 4.8. Watering systems -- 4.8.1. Most common water sources -- 4.8.2. Water containers -- 4.8.3. Water distribution -- 4.9. Solutions for water catchment and storage suitable for self-building -- 4.9.1. Creation of low-cost ponds -- 4.9.2. Rainwater collection -- Conclusion -- References -- Index -- Summaries of other volumes -- EULA. |
| Record Nr. | UNINA-9910831077403321 |
Brunetti Gian Luca
|
||
| London, England ; ; Hoboken, New Jersey : , : ISTE, Ltd. : , : John Wiley & Sons, Incorporated, , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Design and construction of bioclimatic wooden greenhouses . Volume 4 : architectural integration and quantitative analyses / / Gian Luca Brunetti
| Design and construction of bioclimatic wooden greenhouses . Volume 4 : architectural integration and quantitative analyses / / Gian Luca Brunetti |
| Autore | Brunetti Gian Luca |
| Pubbl/distr/stampa | London, England ; ; Hoboken, New Jersey : , : ISTE, Ltd. : , : John Wiley & Sons, Incorporated, , [2023] |
| Descrizione fisica | 1 online resource (351 pages) |
| Disciplina | 728.96 |
| Soggetto topico | Greenhouses - Design and construction |
| ISBN |
1-394-19219-3
1-394-19217-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Introduction -- Chapter 1. Greenhouse Typologies -- 1.1. Stand-alone greenhouse typologies -- 1.1.1. At the core of the stand-alone solar greenhouse conception -- 1.1.2. Cold frames -- 1.1.3. Solar pit greenhouses -- 1.1.4. Tall stand-alone greenhouses -- 1.1.5. "Non-solar" stand-alone greenhouses -- 1.2. Greenhouses serving buildings -- 1.2.1. Integrating the direct gain strategy -- 1.2.2. Integrating the indirect gain scheme from attached solar greenhouses -- 1.2.3. Atria -- 1.2.4. Greenhouses as buffer spaces -- 1.2.5. The house-in-greenhouse scheme -- 1.2.6. Solutions using the ground as primary thermal storage -- 1.3. Additional readings -- Chapter 2. Calculation Approaches -- 2.1. Thermal calculations -- 2.1.1. Calculation of the heat transmission through an opaque panel -- 2.1.2. Determination of the average temperature of a greenhouse in steady state -- 2.1.3. A simplified calculation method of the steady-state temperature in a stand-alone solar greenhouse (experimental) -- 2.1.4. Thermal flux through an indirect solar gain system like a solar wall -- 2.1.5. Thermal flux through an attached greenhouse -- 2.2. Computer simulation as a calculation approach -- 2.3. Environmental simulation by means of open-source tools -- 2.3.1. Basic thermal modeling and simulation criteria -- 2.4. Structural calculations -- 2.4.1. Preliminary structural sizing -- 2.4.2. Preliminary structural sizing with open-source simulation tools -- 2.4.3. Techniques for exploring the design options on the basis of the simulated performances -- 2.4.4. Metamodeling -- Chapter 3. Design Studies -- 3.1. What is still to be said in greenhouse design -- 3.2. Calimali's greenhouse in Fagnano Olona, Italy. By Greenhouse Design Workshop -- 3.3. House "D" in Nantes. Xavier Fouquet.
3.4. Bioclimatic house in Villeneuve-Tolosane, France - Nycholas Eydoux -- 3.5. House in Vals, Italy. Studio Albori -- 3.6. Rehabilitation and extension of the house "AT" in Fagnano Olona. Paolo Carlesso -- 3.7. Greenhouse from recycled windows at "Casamatta", Gurone, Malnate (Varese), Italy. Marta Robecchi -- 3.8. House "GdA" in Cairate, Italy. Paolo Carlesso -- 3.9. A conference greenhouse at Cascina Cuccagna in Milan -- Conclusion -- Afterword -- Appendices -- Appendix 1: Thermal and Acoustic Properties of Construction Materials -- Appendix 2: Strength of Timber According to the Norm EN 338 -- Appendix 3: Properties of Transparent Materials -- References -- Index -- Summaries of other volumes -- EULA. |
| Record Nr. | UNINA-9910830052303321 |
|
Brunetti Gian Luca
|
||
| London, England ; ; Hoboken, New Jersey : , : ISTE, Ltd. : , : John Wiley & Sons, Incorporated, , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Design and construction of bioclimatic wooden greenhouses 1 . Volume 1 Preliminary design / / Gian Luca Brunetti ; series editor Gilles Pijaudier-Cabot
| Design and construction of bioclimatic wooden greenhouses 1 . Volume 1 Preliminary design / / Gian Luca Brunetti ; series editor Gilles Pijaudier-Cabot |
| Autore | Brunetti Gian Luca |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : ISTE Ltd : , : John Wiley & Sons Inc, , [2022] |
| Descrizione fisica | 1 online resource (371 pages) |
| Disciplina | 635.9823 |
| Soggetto topico |
Greenhouses - Design and construction
Greenhouses Greenhouses - Environmental engineering |
| ISBN |
1-394-19210-X
1-394-19208-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910830707603321 |
|
Brunetti Gian Luca
|
||
| Hoboken, New Jersey : , : ISTE Ltd : , : John Wiley & Sons Inc, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Design and Construction of Bioclimatic Wooden Greenhouses, Volume 3 : Design of Construction: Envelopes
| Design and Construction of Bioclimatic Wooden Greenhouses, Volume 3 : Design of Construction: Envelopes |
| Autore | Brunetti Gian Luca |
| Pubbl/distr/stampa | Newark : , : John Wiley & Sons, Incorporated, , 2023 |
| Descrizione fisica | 1 online resource (289 pages) |
| Disciplina | 635.9823 |
| Soggetto topico |
Greenhouses - Design and construction
Greenhouses - Heating and ventilation |
| Soggetto non controllato |
Agriculture
Technology & Engineering |
| ISBN |
1-394-19216-9
1-394-19214-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Introduction -- Chapter 1. Prolog - Overview of Types of Transparent Enclosures -- 1.1. Risks of condensation on transparent enclosures -- 1.2. Essentials on glass panel enclosures -- 1.2.1. Installation of glass panels -- 1.3. Essentials on synthetic panel enclosures -- 1.3.1. Ribbed panels -- 1.3.2. Drained flat double panels -- 1.3.3. Corrugated panels -- 1.3.4. Synthetic films -- 1.4. Curtain walls -- 1.4.1. Detailing at vertical corners -- 1.4.2. Detailing the connection between the front wall and the roof -- 1.4.3. Detailing the connection between the side walls and the roof -- 1.4.4. Detailing the connection between the roof and the building front façade in attached greenhouses -- 1.4.5. Detailing the connection between the roof and the back wall (for stand-alone greenhouses) -- 1.4.6. Detailing the transition between an opaque part of the roof and a transparent one -- 1.4.7. Detailing the vertical joints between greenhouse and building -- 1.4.8. Connecting external systems to the mullion-and-transom system -- 1.4.9. Pressure caps on roofs -- 1.4.10. Bent plates as anchoring devices -- 1.4.11. The façade of windows as an alternative to the curtain wall -- 1.4.12. The façade of windows at the lintels and at the transoms -- 1.4.13. Connection between mullion or transoms and windows by means of setbacks in the profiles -- 1.4.14. Windows and doors -- 1.5. Glazing with glass panels -- 1.5.1. Glass -- Chapter 2. Transparent Plastic Enclosures -- 2.1. Materials for synthetic panels -- 2.1.1. Polycarbonate -- 2.1.2. Acrylic -- 2.1.3. Fiberglass -- 2.2. Commonalities between flat polycarbonate, acrylic or fiberglass panels -- 2.2.1. Working with polycarbonate sheets -- 2.2.2. Working with acrylic sheets -- 2.2.3. Working with fiberglass panels.
2.2.4. Installation of corrugated polycarbonate, acrylic or fiberglass panels -- 2.3. Installation of multi-wall polycarbonate or acrylic panels -- 2.3.1. Anchorage by direct screwing -- 2.3.2. Anchorage by means of channels -- 2.3.3. Anchorage by means of profiled connectors embedded in the joints at the edge of the panels -- 2.3.4. Anchorage by means of pressure caps in curtain-wall schemes -- 2.4. Connection of mullions and/or transoms to the transparent panels by means of pressure caps -- 2.4.1. Example of simple and low-cost openable wooden window constructions suitable for self-building -- 2.5. Further considerations related to solar shading -- 2.5.1. Shading paints -- 2.5.2. External overhangs -- 2.5.3. External Venetian blinds -- 2.5.4. External horizontal fins -- 2.5.5. Internal Venetian blinds -- 2.5.6. Internal horizontal fins -- 2.5.7. External or internal fixed skylight grids or roof grids -- 2.5.8. Detached external canvases/nets -- 2.5.9. Attached external canvases/nets/shade cloths/rollers -- 2.5.10. External curtains/rollers -- 2.5.11. Detached internal canvases -- 2.5.12. Attached internal canvases/nets/shade cloths/curtain rollers -- 2.6. Thermal insulation -- 2.6.1. Resistive insulation -- 2.6.2. Reflective insulation -- 2.6.3. Cavities -- 2.7. Movable insulation -- 2.7.1. Movable insulation panels -- 2.7.2. Removable insulation panels -- 2.7.3. Thermal blankets and curtains -- 2.8. Solar reflectors -- 2.8.1. Diffuse solar reflectors -- 2.8.2. Specular solar reflectors -- 2.8.3. Fixed solar reflectors -- 2.8.4. Movable solar reflectors -- 2.9. Mechanical systems for operating the openable frames -- 2.9.1. Mechanical system for opening rows of openings -- 2.9.2. Mechanical systems for opening single windows and skylights -- 2.9.3. Actuator control -- 2.10. Opaque envelopes -- 2.11. Thermally broken external balconies. 2.12. Paints, stains and preservatives -- Chapter 3. Film-enclosed Greenhouses -- 3.1. Characteristics of polyethylene films -- 3.2. Alternatives to polyethylene films -- 3.3. Strategies for installing the films -- 3.3.1. Fixing strategies entailing rotation -- 3.3.2. Fixing strategies not entailing rotation -- 3.4. Specific challenges in polyethylene-enclosed wooden greenhouses -- 3.4.1. Fitting the structure to avoid tearing the films -- 3.4.2. Consequences of vapor condensation in film-enclosed greenhouses -- 3.5. Multiple polyethylene film layouts -- 3.5.1. Inflated multiple envelopes -- 3.5.2. Inflated ETFE cushions -- 3.6. Film-enclosed greenhouses for hot climates -- 3.6.1. Orientation of hot-climate growing greenhouses -- 3.6.2. Solar shading for hot-climate greenhouses -- 3.6.3. Natural ventilation for hot-climate greenhouses -- 3.6.4. Construction schemes for hot-climate greenhouses, with particular reference to wood -- 3.7. Framed structural layouts adopting combinations of portal frames -- 3.8. Bamboo greenhouses -- Conclusion -- References -- Index -- Summaries of other volumes -- EULA. |
| Record Nr. | UNINA-9910830573303321 |
|
Brunetti Gian Luca
|
||
| Newark : , : John Wiley & Sons, Incorporated, , 2023 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Design and Construction of Bioclimatic Wooden Greenhouses, Volume 3 : Design of Construction: Envelopes
| Design and Construction of Bioclimatic Wooden Greenhouses, Volume 3 : Design of Construction: Envelopes |
| Autore | Brunetti Gian Luca |
| Pubbl/distr/stampa | Newark : , : John Wiley & Sons, Incorporated, , 2023 |
| Descrizione fisica | 1 online resource (289 pages) |
| Disciplina | 635.9823 |
| Soggetto topico |
Greenhouses - Design and construction
Greenhouses - Heating and ventilation |
| Soggetto non controllato |
Agriculture
Technology & Engineering |
| ISBN |
1-394-19216-9
1-394-19214-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Introduction -- Chapter 1. Prolog - Overview of Types of Transparent Enclosures -- 1.1. Risks of condensation on transparent enclosures -- 1.2. Essentials on glass panel enclosures -- 1.2.1. Installation of glass panels -- 1.3. Essentials on synthetic panel enclosures -- 1.3.1. Ribbed panels -- 1.3.2. Drained flat double panels -- 1.3.3. Corrugated panels -- 1.3.4. Synthetic films -- 1.4. Curtain walls -- 1.4.1. Detailing at vertical corners -- 1.4.2. Detailing the connection between the front wall and the roof -- 1.4.3. Detailing the connection between the side walls and the roof -- 1.4.4. Detailing the connection between the roof and the building front façade in attached greenhouses -- 1.4.5. Detailing the connection between the roof and the back wall (for stand-alone greenhouses) -- 1.4.6. Detailing the transition between an opaque part of the roof and a transparent one -- 1.4.7. Detailing the vertical joints between greenhouse and building -- 1.4.8. Connecting external systems to the mullion-and-transom system -- 1.4.9. Pressure caps on roofs -- 1.4.10. Bent plates as anchoring devices -- 1.4.11. The façade of windows as an alternative to the curtain wall -- 1.4.12. The façade of windows at the lintels and at the transoms -- 1.4.13. Connection between mullion or transoms and windows by means of setbacks in the profiles -- 1.4.14. Windows and doors -- 1.5. Glazing with glass panels -- 1.5.1. Glass -- Chapter 2. Transparent Plastic Enclosures -- 2.1. Materials for synthetic panels -- 2.1.1. Polycarbonate -- 2.1.2. Acrylic -- 2.1.3. Fiberglass -- 2.2. Commonalities between flat polycarbonate, acrylic or fiberglass panels -- 2.2.1. Working with polycarbonate sheets -- 2.2.2. Working with acrylic sheets -- 2.2.3. Working with fiberglass panels.
2.2.4. Installation of corrugated polycarbonate, acrylic or fiberglass panels -- 2.3. Installation of multi-wall polycarbonate or acrylic panels -- 2.3.1. Anchorage by direct screwing -- 2.3.2. Anchorage by means of channels -- 2.3.3. Anchorage by means of profiled connectors embedded in the joints at the edge of the panels -- 2.3.4. Anchorage by means of pressure caps in curtain-wall schemes -- 2.4. Connection of mullions and/or transoms to the transparent panels by means of pressure caps -- 2.4.1. Example of simple and low-cost openable wooden window constructions suitable for self-building -- 2.5. Further considerations related to solar shading -- 2.5.1. Shading paints -- 2.5.2. External overhangs -- 2.5.3. External Venetian blinds -- 2.5.4. External horizontal fins -- 2.5.5. Internal Venetian blinds -- 2.5.6. Internal horizontal fins -- 2.5.7. External or internal fixed skylight grids or roof grids -- 2.5.8. Detached external canvases/nets -- 2.5.9. Attached external canvases/nets/shade cloths/rollers -- 2.5.10. External curtains/rollers -- 2.5.11. Detached internal canvases -- 2.5.12. Attached internal canvases/nets/shade cloths/curtain rollers -- 2.6. Thermal insulation -- 2.6.1. Resistive insulation -- 2.6.2. Reflective insulation -- 2.6.3. Cavities -- 2.7. Movable insulation -- 2.7.1. Movable insulation panels -- 2.7.2. Removable insulation panels -- 2.7.3. Thermal blankets and curtains -- 2.8. Solar reflectors -- 2.8.1. Diffuse solar reflectors -- 2.8.2. Specular solar reflectors -- 2.8.3. Fixed solar reflectors -- 2.8.4. Movable solar reflectors -- 2.9. Mechanical systems for operating the openable frames -- 2.9.1. Mechanical system for opening rows of openings -- 2.9.2. Mechanical systems for opening single windows and skylights -- 2.9.3. Actuator control -- 2.10. Opaque envelopes -- 2.11. Thermally broken external balconies. 2.12. Paints, stains and preservatives -- Chapter 3. Film-enclosed Greenhouses -- 3.1. Characteristics of polyethylene films -- 3.2. Alternatives to polyethylene films -- 3.3. Strategies for installing the films -- 3.3.1. Fixing strategies entailing rotation -- 3.3.2. Fixing strategies not entailing rotation -- 3.4. Specific challenges in polyethylene-enclosed wooden greenhouses -- 3.4.1. Fitting the structure to avoid tearing the films -- 3.4.2. Consequences of vapor condensation in film-enclosed greenhouses -- 3.5. Multiple polyethylene film layouts -- 3.5.1. Inflated multiple envelopes -- 3.5.2. Inflated ETFE cushions -- 3.6. Film-enclosed greenhouses for hot climates -- 3.6.1. Orientation of hot-climate growing greenhouses -- 3.6.2. Solar shading for hot-climate greenhouses -- 3.6.3. Natural ventilation for hot-climate greenhouses -- 3.6.4. Construction schemes for hot-climate greenhouses, with particular reference to wood -- 3.7. Framed structural layouts adopting combinations of portal frames -- 3.8. Bamboo greenhouses -- Conclusion -- References -- Index -- Summaries of other volumes -- EULA. |
| Record Nr. | UNINA-9910840814503321 |
|
Brunetti Gian Luca
|
||
| Newark : , : John Wiley & Sons, Incorporated, , 2023 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||