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Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
Maison Intelligente A3 2010 10 10
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Maison Intelligente A3 2010 10 10

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A new building technology for one and two floors houses of various configurations. Energy efficient, rapid to build, inexpensive. Suitable for any kind of sustainable projects worldwide, including …

A new building technology for one and two floors houses of various configurations. Energy efficient, rapid to build, inexpensive. Suitable for any kind of sustainable projects worldwide, including social and community housing schemes, residential estates, reacreation and holiday projects.

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  • 1. Projet “FRAISE” (LA MAISON INTELLIGENTE) Sofia / Montréal 2009 / 2010
  • 2. A New Generation of Low-Energy Consumption Houses with Higher Seismic Performance Brief Presentation (phase 1: general aspects) 25 April 2010
  • 3. Initial Project Phases Project Team • Phase One • Sofplan, Sofia (Bulgarie, EU) (technology development and concept design) Arch. Daniele Marinangeli – Basic concept design September 2009 – January 2010 Eng. Raya Ivanova – Structural concept Eng. Stoicho Karaivanov – Technical principles, details • Phase Two Arch. Denitsa Yotova - Typology (development of typology and technical design Arch. Nyasha Vengesayi – 3D imaging of prototype applications) Arch. Radosvet Markoff – Coordinator February – May 2010 • Prestoge Panel, Victoriaville/Montréal (Québec, Canada) • Phase Three Eng. Dimitre Roussinof – Structural principles, SIP technology (project presentations, development of commercial brand, promotional activities, prototype applications) • Consultants June – November 2010 Arch. Nikolai Nikolov, Zoom Studio – composition principles, typology, typical exterior and interior arrangement Prof. Todor Barakov, University of Civil Engineering, Sofia – wooden structures Philip Popoff, ppD - commercial brand development partner architects from Spain and Turkey building contractors from Canada, France, Bulgaria, Turkey, Iraq and Israel real estate developers from Canada, Spain, Italy, Israel, Turkey and Bulgaria project management companies from Spain, Italy and the Balkan countries real estate agencies from Canada, UK, Turkey and Bulgaria manufacturers of SIPs in Canada manufacturers of wooden structures in Europe manufacturers of glazing and windowpanes manufacturers and installers of roof, floor and wall materials designers and manufacturers of lighting equipment designers and installers of heat and ventilation equipment and plumbing craftsmen of various specialty home owners from Cnada, Spain, Italy, France, UK, Turkey, Greece, Israel, Bulgaria
  • 4. Compopan Technical Data • high quality structural and semi-structural insulated wall and roof • standard size 1220 x 2440mm panel • transverse strength 0,146 MPa • engineered composite building material composed of a tick foam layer sandwiched between two structural • E -module 9,17 MPa boards • compressive Strength 0,233 MPa • provides high insulation values while contributing to the system’s overall stiffness, strength and dimensional stability • max. bending moment 3,54 kNm/m • effectively replaces several components of conventional building • density ρ 47,14 kg/m3 such as studs and joists, insulation, vapor barrier and air barrier • water permeability 900 Pa • air permeability 2,14 m3/m2.h production facilities • Prestige Panel factory, Victoriaville (Quebec, Canada) • Canbulco factory, Sliven (Bulgaria, EU) • future facilities in other key markets
  • 5. Structural systems Compotron SBL (structure de bois laminé) COMPOPAN S COMPOPAN + + laminated wood hidden framework laminated wooden frames + + r.c. foundation slab reinforced concrete foundation slab Melange Eco COMPOPAN COMPOPAN + + laminated wood frames wooden trusses + + multi-floor reinforced concrete core r.c. foundation slab
  • 6. SBL (structure de bois laminé) SBL basic principle
  • 7. SBL seismic and load bearing performance Vitrage-based applications / flat roof Chalet-based applications / sloping roof • More efficient construction system (the wooden frames are • More efficient construction system (the wooden frames are able to able to absorb the horizontal forces along the width of the absorb the horizontal forces along the width of the building, and the forces building, and the forces along the length of the structure are along the length of the structure are absorbed by the combination of the absorbed by the combination of the frames and panels) frames and panels) • High resistance to seismic forces - due to the flexibility • High resistance to seismic forces - due to the flexibility characteristics characteristics of the wooden joints of the wooden joints • Higher load-bearing capacity for snow and wind loads – due to the steep slope of the roof and rigid structure, firmly attached to the concrete base/lower floors
  • 8. SBL system advantages over r.c. structures and traditional SIP technologies • Excellent combination of two modern technologies: • Possibilities for integrating additional advanced technologies SIP COMPOPAN and laminated wooden beams solar panels, passive houses elements, intelligent houses • Production technology and assembly • Flexible planning, possibilities for new configurations shorter deadlines and high quality • Usage – independent from the SIP certification in a number of • Improved energy efficiency (Chalet series): countries Кw wall = 0,25 – 0,45 • Lower investment risk for bigger projects (for both developers and Кw glazing = 0,65 – 0,90 financing institutions) • Design flexibility and improved comfort for affordable prices Mélange system advantages to r.c. structures • A great variety of custom applications – combined advantages of both reinforced concrete and wooden frame structure • Use of light-weight structures on top of the buildings– SBL or Compotron systems in attics of multistory buildings and for reconstruction and enlargement of loft spaces • Reducing the number and size of load-bearing reinforced concrete elements (more cost effective)
  • 9. Typology • Vitrage 70 - 210 m2 • Chalet 130 – 220 m2 • Economique 35 и 55 m2 (up to 120m2) • Moduleur (to be developed) • Appications individuelles (under way)
  • 10. Vitrage
  • 11. vitrage 70 70m2 • living room 8,4m2 • dining room, kitchen 9,5m2 • bathroom 5,3m2 • master bedroom 13,7m2 • bedroom 9m2 • loggia 13m2 • terrace 24,4m2
  • 12. vitrage 133A 133 m2 • living room 30m2 • dining room, kitchen 19,3m2 • WC 4,9m2 • master bedroom 19,8m2 + bathroom 4,4m2 • bedroom 16,7m2 • loggia 13m2 • terrace 15,5m2
  • 13. vitrage 133 B 133 m2 • living room 30m2 • dining room, kitchen 19,3m2 • sauna + WC 8,2m2 • master bedroom 19,8m2 + bathroom 4,4m2 • bedroom 16,7m2 • loggia 13m2 • terrace 15,5m2
  • 14. vitrage 172 172 m2 • living room 41m2 • dining room, kitchen 24,4m2 • sauna + WC 8,2m2 • master bedroom 19,8m2 + bathroom 4,4m2 • bedroom 16,7m2 • bedroom 12,7m2 + bathroom 4,7m2 • loggia 13m2 • terrace 20m2
  • 15. vitrage 197 197 m2 • living room 47,6m2 • dining room, kitchen 24,4m2 • sauna + WC 8,2m2 • master bedroom 18,2m2 + bathroom 4,7m2 + closet 6,7m2 • bedroom 19,8m2 + bathroom 4,4m2 • bedroom 16,7m2 • loggia 13m2 • terrace 22,9m2
  • 16. vitrage 210 210m2 • living room 47,6m2 • dining room, kitchen 30,4m2 • WC 2,8m2 • sauna 19,3m2 • master bedroom 18m2 + bathroom 4,4m2 + closet 6,7m2 • bedroom 19m2 + bathroom 3,8m2 • bedroom 16,7m2 • loggia 13m2 • terrace 24,4m2
  • 17. chalet
  • 18. chalet 132
  • 19. chalet 132 132m2 • living room 22,4m2 • kitchen, dining room 19 m2 • bedroom 14,2m2 •Bedroom 14,2m2 • bathroom 4,2m2 • loggia 19m2 •gallery/ study 23m2
  • 20. chalet 152 152m2 • living room 22,4m2 • kitchen, dining room 19 m2 • bedroom 19m2 •Bedroom 19m2 • bathroom 4,2m2 • loggia 19m2 •gallery/ study 29m2
  • 21. chalet 181A
  • 22. chalet 181A
  • 23. chalet 181A 181m2 • living room 30m2 • kitchen, dining room 19,3 • bathroom, sauna 8,2m2 • master bedroom 18,7m2 +bathroom 4,8m2 • bedroom 17,6m2 • loggia 13m2 •gallery 31m2
  • 24. chalet 181B
  • 25. chalet 181B 181m2 • living room 32m2 • kitchen, dining room 22,6 • bathroom, 5m2 • bathroom 6m2 • master bedroom 19m2 • bedroom 19m2 • loggia 25m2 •gallery 43m2
  • 26. chalet 181B
  • 27. economique35 35m2 • living room, bedroom 25m2 • bathroom 3,2m2 • loggia 4,2m2
  • 28. economique35 group
  • 29. economique35 group
  • 30. economique55 55m2 • living room, kitchen 25,5 m2 • bedroom 13,7m2 • bathroom 3,4m2 • loggia 6m2
  • 31. Uses • Small Models (35 – 55 м2): • Economique: hotel complexes- agritourism , mountain and seaside tourism hotel complexes in the nature for social projects bungalow in the mountain weekend houses at the seaside and in the mountains low-budget houses social housing • Middle size models (70 – 130 м2): camps and temporary shelter secondary houses in nature primary houses for couples • Vitrage : social projects (low class) regions with mild climates locations with panoramic views • Large models (150 м2 +): near the seaside or lakeside primary houses for families with children , secondary houses for wealthy families • Chalet: regions with cold continental climates suburbs
  • 32. Assembly Categories • Lower category : • Higher category : wooden frames higher quality / lower energy consumption SIP with mineral plaster wooden frames+ SIP+ additional insulation+ durable wall covering LT sheet-metal profiles or roof tiles roof covering- zinc sheets or stone tiles (schist) PVC window frames windows- triple glazing laminate floor, floor finishes - oak or exotic wood bathrooms with BG assembling bathroom fittings - class Roca conventional heating and ventilation systems heating and ventilation- new generation air conditioners and fireplace without additional furniture (built-in kitchen cupboards, wardrobes) additional components (solar panels, kitchen fittings, wardrobes) cost: 350 – 450 E/m2 cost: 500+ E/m2
  • 33. Clients /Companies Clients /Private • Investors/developers of housing projects: • Small families with mid-range income: residential complexes in the suburbs suburban house – alternative to city apartment park villages and clusters primary residence mountain and seaside bungalows • Hoteliers: hotel complexes in natural surrounding • High income families: primary residence • Beneficiaries of EU programs (in EU): second house by the sea and in the mountains modular hotel accommodation and small semidetached houses modular guest houses, gym, spa • Owners of existing smaller houses: modular houses with options for extensions Clients /Institutions modular garage, garden shed, guest houses, gym, spa • Social housing : low-budget residential complexes residential complexes for temporary accommodation • Other state and municipal projects: student accommodation sport and recreation centers children’s camps kindergartens
  • 34. Appearance standard types and individual applicationa
  • 35. Projet “Fraise”: modèle standard Vitrage (haute configuration), viste lateralle
  • 36. Projet “Fraise”: modèle Vtrage (haute configuration)
  • 37. Projet “Fraise”: modèle Chalet Contemporaine (haute configuration)
  • 38. Projet “Fraise”: modèle Chalet Contemporaine (haute configuration)
  • 39. Projet “Fraise”: modèle Chalet Contemporaine (haute configuration)
  • 40. Projet “Fraise”: modèle Chalet Contemporaine (haute configuration)
  • 41. Projet “Fraise”: modèle Chalet Contemporaine (haute configuration)
  • 42. Projet “Fraise”: modèle Chalet Classique (moyenne configuration)
  • 43. Projet “Fraise”: modèle Vitrage (haute configuration), intérieur
  • 44. Projet “Fraise”: modèle Vitrage (haute configuration), cuisine et salle à manger
  • 45. Projet “Fraise”: modèle Vitrage (haute configuration), vue du salon
  • 46. modèle Eco (projet d’une cité sociale en Turquie)
  • 47. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 48. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 49. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 50. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 51. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 52. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 53. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 54. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 55. Projet “Fraise”: modèle Eco (projet d’une cité sociale en Turquie)
  • 56. Projet “Fraise”: modèle standard Eco, réalisation en Bulgarie
  • 57. Projet “Fraise”: modèle standard Eco, variante avec portique
  • 58. réalisation individuelle a Sofia, Bulgarie
  • 59. Projet “Fraise”: réalisation individuelle a Sofia, Bulgarie
  • 60. Projet “Fraise”: réalisation individuelle a Sofia, Bulgarie
  • 61. Projet “Fraise”: réalisation individuelle a Sofia, Bulgarie
  • 62. Projet “Fraise”: réalisation individuelle a Sofia, Bulgarie
  • 63. Projet “Fraise”: réalisation individuelle a Sofia, Bulgarie
  • 64. Projet “Fraise”: maison individuelle, vue de la terrasse du toit, Sofia (Bulgarie)
  • 65. Projet “Fraise”: maison individuelle, Sofia (Bulgarie), vue de la terrasse au res-des- chaussée
  • 66. réalisation individuelle a Sofia, Bulgarie
  • 67. Projet “Fraise”: projet d’une maison individuelle, Sofia (Bulgarie)
  • 68. extensio d’une maison à Sofia (Bulgarie)
  • 69. Projet “Fraise”: extensio d’une maison à Sofia (Bulgarie)
  • 70. Projet “Fraise”: extension d’une maison, Sofia (Bulgarie)
  • 71. Projet “Fraise”: extensio d’une maison à Sofia (Bulgarie)
  • 72. Projet “Fraise”: extension d’une maison à Sofia (Bulgarie)
  • 73. Projet “Fraise”: extension d’une maison à Sofia (Bulgarie)

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