Thesis: Prefabricated Wooden Architecture
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Prefabricated Wooden Architecture SIMONE SERRA email: [email protected] mobile: +39 347 6587596 (IT) skype: simone.serra86 portfolio: http://issuu.com/simoneserra/docs/portfolio_21x21 linkedin: https://www.linkedin.com/in/simoneserra7/en
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The project aims to design a residential area, made in accordance with green criteria and environmental sustainability. Houses are prefabricated wooden, thermally insulated and really close to being considered passive houses. The building material is “Xlam panel”
Transcript of Thesis: Prefabricated Wooden Architecture
Prefabricated Wooden Architecture
SIMONE SERRA
email: [email protected]
mobile: +39 347 6587596 (IT)
skype: simone.serra86
portfolio: http://issuu.com/simoneserra/docs/portfolio_21x21
linkedin: https://www.linkedin.com/in/simoneserra7/en
AAModel floor plan. Residential Building Type
Sunlight June 21
Sec
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Sunlight December 21N
Site Plan (Project Area) 1:500
PREFABRICATED WOODEN ARCHITECTURE SUSTAINABLE NEIGHBORHOOD
The project is focused on the development of a residential area in accordance with environmental sustainability criteria.
The main goal is to design sustainable buildings with a thermal performance close to being considered passive houses. The multi-storey buildings with four levels are composed of three volumes, the central includes stairs and elevators, in the side volumes there are retail stores on the GF and apartments on the upper levels.
The building material is “Xlam panel” that consists of a minimum of three layers of boards in coniferous wood, mutually intersecting and glued which allows low values of thermal conductivity. The eco-friendly building material and the thermal efficiency in addition to prefabrication with simple connections allows to save money over the building life cycle. The project respects also other green criteria such as low shape factor (the surface area to volume (S/V) ratio) and the efficient solar and wind exposure to receive the maximum solar radiation in winter and the lowest in summer, in addition to the right airflow.
Thermal Transmittance: 0,19W/m2K
Thermal Transmittance: 0,19W/m2K
Thermal Transmittance: 0,32W/m2K
Thermal Transmittance: 0,26W/m2K
Thermal Transmittance: 0,13W/m2K
Floor to Wall joint
Wall to Wall joint
Wall to Intermediate Floor to Wall joint
Floor panels joint
DETAIL. BALCONY:1. Ceramic Floor Tiles 10 mm2. Glue 4 Mm3. Waterproofing Membran 4 mm4. Fiber Cement 15 Mm5. Lath For Slope 1% 50 Mm6. Cross Laminated Timber (Xlam)140 Mm, 600 mm
7. Plaster Substrates With Fiberglass Insulation And Lightweight Concrete8. Lime Plaster 17,5 Mm9. Stainless Steel Parapet10. Rubber Acoustic Roll Insulation 4mm11. Self Drilling Screw12. Stainless Steel Angles
DETAIL. LOAD BEARING EXTERNAL WALLS:1. Lime Plaster 17,5 mm2. stone wool insulation 120 mm3. Cross laminated timber (Xlam)120 mm4. fiberglass insulation 60 mm5. Gypsum fibreboard 12,5 mm6. Bitumen-App waterproofing membran. 4+4 mm7. Stainless Steel Angles (Hold Down) h 406 mm8. XPS insulation 120 mm, H 600 mm9. Insulation support metalDETAIL. BASE FLOOR:10. Ceramic Floor Tiles11. Lightweight concrete screed 90 mm12. hydraulic tubing for radiant heating 16 mm13. Crete-Heat insulated (eps) floor panel. 37 mm14. Xps Insulation 70 mm15.Lightweight concrete screed 50 mm16. Concrete sub floor 100 mm + electrowelded net17. Iglù (recycled polypropylene formwork) 450 mm18. Lightweight concrete 100 mm19. Bitumen-App waterproofing membran. 4+4 mm20. Continuous spread footing21. Shaft for areation f 100 mm22. Rubber acoustic roll insulation 4mm
DETAIL. FLAT ROOF1.Bitumen-App Waterproofing Membran. 4+4 mm2.Lightweight Concrete Screed (Slope 3%) H.Max.50 mm3.EPS-W Insulation 200 Mm4.Bitumen Waterproofing Insulation5.Cross Laminated Timber (Xlam)70 Mm6.U-Shaped Plastic Extrusion Profile 70mm7.Fiberglass Insulation 60 mm8.Gypsum Fibreboard 70mm9.Steel Sheet Flashing10. Waterproofing Membran 8 mm11. Extruded Polystyrene Insulation 12 mm12. Extruded Polystyrene Insulation 80 mm13. Extruded Polystyrene Insulation 60 mm14. Cross Laminated Timber (Xlam)120 mm, H 600 mm15. Stainless Steel Angles16. Rubber Acoustic Roll Insulation 4mm17. Self Drilling Screw
DETAIL. INTERMEDIARY HORIZONTAL FLOOR1. Ceramic floor tiles2. Lightweight concrete screed for floor systems 60 mm3. hydraulic tubing for radiant heating f16 mm4. Crete-Heat insulated (eps) floor panel5. plastic separation layer 2mm6. Fiberglass sheets for sound insulation 20mm7. cement screed 50 mm8. trickling protection 5mm9. Cross laminated timber (Xlam)140 mm10. U-shaped plastic extrusion profile 70mm11. Fiberglass insulation 60 mm12. Gypsum fibreboard 12,5 mm
DETAIL. LOAD BEARING INTERNAL WALL13. Gypsum fibreboard 12,5 mm14. Cross laminated timber (Xlam) 78 mm15. Rubber acoustic roll insulation 4mm16. Stainless Steel Angles17. OSB joynt for floor modules18. Self drilling screw
Rendering. View from a balcony
Rendering. Perspective view on the main street
Rendering. Main elevation of the first building type
Rendering. Main elevation of the second building type
