Innovative Timber Buildings<br />Liam Dewar<br />Director, Eurban<br />
Liam DewarInnovative TimberBuildings<br />
WHY TIMBER BUILDINGS?<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
WHOLE-LIFE CARBON<br />LOWER<br />(THROUGH SUBSTITUTION)<br />+<br />EMBODIED CARBON 		    STORED CARBON<br />
EMBODIED CARBONMATERIAL SUBSTITUTION<br />IMAGE © WWW<br />IMAGE © PRIMARY INDUSTRIES & RESOURCES<br />
EMBODIED CARBONMATERIAL SUBSTITUTION <br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
STORED CARBONWHAT SHALL WE DO WITH PLANTATION TREES? <br />
STORED CARBONMANY USES = NO WASTAGE<br />
STORED CARBONAPPLICATION / LIFE EXPECTANCY<br />	TIMBER USE				  LIFE EXPECTANCY<br />	Fuel Wood					   1 year<br />	Packa...
STORED CARBONTIMBER STRUCTURES<br />80 YEARS<br />
WHY SOLID TIMBER BUILDINGS?<br />
WHOLE-LIFE CARBON<br />	         LOWER											  LOWER<br />HIGHER<br />EMBODIED CARBON 		    STORED CARBON 	        OPE...
LOWER EMBODIED CARBON THROUGH STRUCTURAL REDUNDANCY = DURABILITY<br />SEISMIC TESTING, TSUKUBA, JAPAN<br />BRENDELAND & KR...
LOWER EMBODIED CARBON THROUGH ROBUSTNESS = DURABILITY<br />
HIGHER STORED CARBONUSED TO OFFSET MORE EMBODIED CARBON<br />ITEM							 CARBON FOOTPRINT		  TIMBER<br />Night in a hotel	...
OPERATIONAL CARBONFORCOMFORT & HEALTH<br />
LOWER OPERATIONAL CARBONTHROUGH THERMAL STABILITY<br />MATERIAL		THERMAL MASS		      STABILITY		   	     ACTIVITY<br /> c....
LOWER OPERATIONAL CARBON THROUGH MOISTURE STABILTY<br />The impact of hygroscopic materials (the ability of a material to ...
SOLID TIMBER MATERIALS <br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE ©<br />
LOG CONSTRUCTION NEW-BUILD HOUSE, GRISONS, CH<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © GION A. CAMINADA<br />
LOG CONSTRUCTIONNEW-BUILD HOUSE, GRISONS, CH<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © GION A. CAMINADA<br />
LOG CONSTRUCTION NEW-BUILD SCHOOL, GRISONS, CH<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © GION A. CAMINADA<br />
BRETTSTAPELPLANAR ELEMENTS - DOWELLED<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE ©<br />
BRETTSTAPELLOW-TEC MANUFACTURE<br />
BRETTSTAPEL NARROW WIDTH<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
BRETTSTAPEL EXTERNAL RACKING BOARD<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
CROSSLAM PLANAR ELEMENTS - GLUED<br />
CROSSLAM PLANAR ELEMENTS - GLUED<br />Thickness:	Typically 50-400mm<br />
CROSSLAM INDUSTRIAL MANUFACTURE<br />IMAGES © FINNFOREST MERK<br />
CROSSLAM WALLS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
CROSSLAM FLOORS & ROOFS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
CROSSLAM DIMENSIONAL STABILITY<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
CROSSLAM SIMPLICITY - CONNECTIONS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
CROSSLAM SIMPLICITY - AIRTIGHTNESS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
CROSSLAM SIMPLICITY – INTERFACES<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
BENEFITSSIMPLICITY - FIT-OUT<br />
SOLID TIMBER CONSTRUCTION <br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © KLH MASSIVBAU<br />
SOLID TIMBER CONSTRUCTIONPROCESS-DRIVEN – A B C<br />TIMBER DESIGN<br />INSTALLATION<br />MATERIAL SUPPLY<br />
SOLID TIMBER CONSTRUCTIONA - TIMBER DESIGN<br />TIMBER DESIGN<br />
TIMBER DESIGNTIMBER & VALUE ENGINEERING<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
TIMBER DESIGN CNC INPUT DATA & INSTALLATION DRAWINGS <br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
SOLID TIMBER CONSTRUCTIONB - MATERIAL SUPPLY<br />INSTALATION<br />
MATERIAL SUPPLYFOREST COVER<br />IMAGE © THOMAS STONEY BRYANS<br />
MATERIAL SUPPLY MATERIAL SOURCE<br />
SOLID TIMBER CONSTRUCTIONC - INSTALLATION<br />
INSTALLATION QUALITY ASSURANCE<br />
CASE STUDIES<br />IMAGE © KARAKUSEVIC CARSON<br />
SUNKEN HOUSE LONDON, UK<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE STRUCTURAL CONCEPT<br />
SUNKEN HOUSE COMPONENT MODEL<br />
SUNKEN HOUSE COMPONENT MODEL<br />
SUNKEN HOUSE COMPONENT MODEL<br />
SUNKEN HOUSE MATERIALS<br />
SUNKEN HOUSE GROUNDWORKS<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE GROUNDWORKS<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE INSTALLATION - SITE<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE INSTALLATION<br />
SUNKEN HOUSE INSTALLATION<br />
SUNKEN HOUSE INSTALLATION<br />
SUNKEN HOUSE INSTALLATION<br />
SUNKEN HOUSE ROOF PANELS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
SUNKEN HOUSE ROOF PANELS<br />
SUNKEN HOUSE INSTALLATION - ROOF<br />
SUNKEN HOUSE INSTALLATION - ROOF<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
SUNKEN HOUSE INSTALLATION - ROOF<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
SUNKEN HOUSE DETAIL - ROOF<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
SUNKEN HOUSE DETAIL - ROOF<br />
SUNKEN HOUSE DETAIL - ROOFLIGHT<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
SUNKEN HOUSE EPDM ROOFING<br />
SUNKEN HOUSE TIMBER CLADDING<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE TIMBER CLADDING<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE TIMBER CLADDING<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE TIMBER CLADDING<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE KITCHEN / DINING<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE CIRCULATION<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE STUDIO<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © ED REEVE<br />
SUNKEN HOUSE PROJECT DATA<br />CLIENT<br />Private<br />ARCHITECT<br />Adjaye Associates<br />GROUNDWORKS<br />Wallace Con...
DARTINGTON SCHOOL DEVON, UK<br />IMAGE © WHITE DESIGN<br />
DARTINGTON SCHOOL DESIGN CONCEPT – FLAT-PACK<br />IMAGE © WHITE DESIGN<br />
DARTINGTON SCHOOL DESIGN CONCEPT -CLUSTER<br />IMAGE © WHITE DESIGN<br />
DARTINGTON SCHOOL COMPONENT MODEL – CLUSTER 3<br />
DARTINGTON SCHOOL GROUNDWORKS – PRECEDENT<br />BRE MODULAR CLASSROOM<br />
DARTINGTON SCHOOL GROUNDWORKS<br />IMAGES © WHITE DESIGN<br />
DARTINGTON SCHOOL TIMBER FLOOR SLAB<br />
DARTINGTON SCHOOL INSTALLATION<br />
DARTINGTON SCHOOL INSTALLATION<br />
DARTINGTON SCHOOL INSTALLATION<br />
DARTINGTON SCHOOL INSTALLATION<br />
DARTINGTON SCHOOL INSTALLATION<br />
DARTINGTON SCHOOL INSTALLATION<br />IMAGES © WHITE DESIGN<br />
DARTINGTON SCHOOL WINDOWS & DOORS<br />
DARTINGTON SCHOOL WINDOWS & DOORS<br />
DARTINGTON SCHOOL WOODFIBRE INSULATION<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
DARTINGTON SCHOOL WOODFIBRE INSULATION<br />
DARTINGTON SCHOOL WOODFIBRE INSULATION<br />
DARTINGTON SCHOOL WOODFIBREINSULATION<br />IMAGES © WHITE DESIGN<br />
DARTINGTON SCHOOL WOODFIBRE INSULATION<br />IMAGES © WHITE DESIGN<br />
DARTINGTON SCHOOL WOODFIBRE INSULATION<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
DARTINGTON SCHOOL TIMBER CLADDING<br />IMAGE © WHITE DESIGN<br />
DARTINGTON SCHOOL TIMBER CLADDING<br />IMAGE © WHITE DESIGN<br />
DARTINGTON SCHOOL CLASSROOM<br />IMAGE © WHITE DESIGN<br />
DARTINGTON SCHOOL CLASSROOM<br />
DARTINGTON SCHOOL EXTERNAL<br />IMAGE © WHITE DESIGN<br />
DARTINGTON SCHOOL EXTERNAL<br />IMAGE © WHITE DESIGN<br />
DARTINGTON SCHOOL PROJECT DATA<br />CLIENT<br />Devon Country Council<br />ARCHITECT<br />White Design<br />GROUNDWORKS EN...
WAINGELS COLLEGE BERKSHIRE, UK<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE DESIGN CONCEPT – NATURAL DAYLIGHT<br />IMAGE © SHEPPARD ROBSON<br />
WAINGELS COLLEGEDESIGN CONCEPT – CENTRAL COURTYARD<br />IMAGE © SHEPPARD ROBSON<br />
WAINGELS COLLEGEDESIGN CONCEPT – CENTRAL COURTYARD<br />IMAGES © SHEPPARD ROBSON<br />
WAINGELS COLLEGE DESIGN CONCEPT – OPEN PLAN<br />IMAGE © SHEPPARD ROBSON<br />
WAINGELS COLLEGE LIGNATUR FLOOR & ROOF CASSETTES<br />
WAINGELS COLLEGE COMPONENT MODEL<br />
WAINGELS COLLEGE COMPONENT DRAWINGS - WALLS<br />
WAINGELS COLLEGE COMPONENT DRAWINGS - FLOOR<br />
WAINGELS COLLEGE COMPONENT DRAWINGS – ROOF<br />
WAINGELS COLLEGE COMPONENT DRAWINGS<br />
WAINGELS COLLEGE GROUNDWORKS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
WAINGELS COLLEGE INSTALLATION<br />
WAINGELS COLLEGE INSTALLATION<br />
WAINGELS COLLEGE INSTALLATION<br />
WAINGELS COLLEGE INSTALLATION<br />
WAINGELS COLLEGE FLOOR CASSETTES<br />
WAINGELS COLLEGE FLOOR CASSETTES<br />
WAINGELS COLLEGE FLOOR CASSETTES<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE ROOF CASSETTES<br />
WAINGELS COLLEGE ROOF CASSETTES<br />
WAINGELS COLLEGE ROOF CASSETTES<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE  BESPOKETRUSS<br />IMAGE © SHEPPARD ROBSON<br />
WAINGELS COLLEGE  BESPOKETRUSS<br />
WAINGELS COLLEGE BESPOKETRUSS<br />3.5m<br />
WAINGELS COLLEGE BESPOKE TRUSS - ASSEMBLY HALL<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE CIRCULATION<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE CIRCULATION<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE RENDER /TIMBER CLADDING<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE TIMBER CLADDING<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE TIMBER CLADDING<br />IMAGE © HUFTON + CROW<br />
WAINGELS COLLEGE PROJECT DATA<br />CLIENT<br />Wokingham Borough Council<br />ARCHITECT<br />Sheppard Robson<br />GROUNDWO...
BRIDPORT HOUSELONDON, UK<br />
BRIDPORT HOUSEDESIGN CONCEPT<br />IMAGE © KARAKUSEVIC CARSON<br />
BRIDPORT HOUSEBRIEF REQUIREMENT - UNDERGROUND SEWER<br />
BRIDPORT HOUSEDESIGN CONCEPT<br />IMAGE © KARAKUSEVIC CARSON<br />
BRIDPORT HOUSEDESIGN CONCEPT - STRUCTURE<br />IMAGES © KARAKUSEVIC CARSON<br />
BRIDPORT HOUSEBRIEF REQUIREMENT – UNIT MIX<br />
BRIDPORT HOUSESTRUCTURAL CONCEPT - LOAD TRANSFER<br />
BRIDPORT HOUSE STRUCTURAL CONCEPT - LOAD TRANSFER<br />
BRIDPORT HOUSE STRUCTURAL CONCEPT - STRENGTH / SETTLEMENT<br />
BRIDPORT HOUSE STRUCTURAL CONCEPT - STRENGTH / SETTLEMENT<br />IMAGE © WILMOTT DIXON<br />
BRIDPORT HOUSE STRUCTURAL CONCEPT - STRENGTH / SETTLEMENT<br />IMAGE © WILMOTT DIXON<br />
BRIDPORT HOUSESTABILITY<br />
BRIDPORT HOUSECOMPONENT MODEL<br />
BRIDPORT HOUSEINSTALLATION - SITE<br />IMAGE © KARAKUSEVIC CARSON<br />
BRIDPORT HOUSEINSTALLATION<br />IMAGE © WILMOTT DIXON<br />
BRIDPORT HOUSEINSTALLATION<br />IMAGE © WILMOTT DIXON<br />
BRIDPORT HOUSEWEEK 1<br />
BRIDPORT HOUSEWEEK 6<br />
BRIDPORT HOUSEWEEK 8<br />
BRIDPORT HOUSEWEEK 10<br />
BRIDPORT HOUSEFIT-OUT - SCREED<br />IMAGE © WILMOTT DIXON<br />
BRIDPORT HOUSEFIT-OUT<br />IMAGE © WILMOTT DIXON<br />
BRIDPORT HOUSEWINDOWS<br />IMAGES © WILMOTT DIXON<br />
BRIDPORT HOUSEBRICK CLADDING<br />
BRIDPORT HOUSE PROJECT DATA<br />CLIENT<br />Hackney Borough Council<br />ARCHITECT<br />Karakusevic Carson<br />GROUNDWOR...
FUTURE AUSTRALASIALOCAL MATERIALS<br />
FUTURE AUSTRALASIALOCAL PROJECTS<br />
FUTURE AUSTRALASIA<br />
FUTURE AUSTRALASIA<br />
Innovative Timber Buildings<br />Questions?<br />Liam Dewar<br />Director, Eurban, UK<br />
Upcoming SlideShare
Loading in …5
×

Innovative timber buildings – including cross laminated timber and laminated veneer lumber by Liam Dewar

3,806 views

Published on

Innovative timber buildings – including cross laminated timber and laminated veneer lumber

Liam Dewar, Director - Eurban Limited UK

New design concepts using engineered timber products are promising to increase sustainability and construction efficiency. Cross laminated timber (CLT) and laminated veneer lumber (LVL) are appearing in multi-level building designs of 10 storeys and more.

Published in: Business
0 Comments
3 Likes
Statistics
Notes
  • Be the first to comment

No Downloads
Views
Total views
3,806
On SlideShare
0
From Embeds
0
Number of Embeds
261
Actions
Shares
0
Downloads
134
Comments
0
Likes
3
Embeds 0
No embeds

No notes for slide

Innovative timber buildings – including cross laminated timber and laminated veneer lumber by Liam Dewar

  1. 1.
  2. 2. Innovative Timber Buildings<br />Liam Dewar<br />Director, Eurban<br />
  3. 3. Liam DewarInnovative TimberBuildings<br />
  4. 4. WHY TIMBER BUILDINGS?<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  5. 5. WHOLE-LIFE CARBON<br />LOWER<br />(THROUGH SUBSTITUTION)<br />+<br />EMBODIED CARBON STORED CARBON<br />
  6. 6. EMBODIED CARBONMATERIAL SUBSTITUTION<br />IMAGE © WWW<br />IMAGE © PRIMARY INDUSTRIES & RESOURCES<br />
  7. 7. EMBODIED CARBONMATERIAL SUBSTITUTION <br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  8. 8. STORED CARBONWHAT SHALL WE DO WITH PLANTATION TREES? <br />
  9. 9. STORED CARBONMANY USES = NO WASTAGE<br />
  10. 10. STORED CARBONAPPLICATION / LIFE EXPECTANCY<br /> TIMBER USE LIFE EXPECTANCY<br /> Fuel Wood 1 year<br /> Packaging 2 years<br /> Wood Products 10 years<br /> Books 25 years<br /> Furniture 30 years<br /> Woodfibre Insulation 60 years<br /> Timber Structure 80 years<br />
  11. 11. STORED CARBONTIMBER STRUCTURES<br />80 YEARS<br />
  12. 12. WHY SOLID TIMBER BUILDINGS?<br />
  13. 13. WHOLE-LIFE CARBON<br /> LOWER LOWER<br />HIGHER<br />EMBODIED CARBON STORED CARBON OPERATIONAL CARBON <br />
  14. 14. LOWER EMBODIED CARBON THROUGH STRUCTURAL REDUNDANCY = DURABILITY<br />SEISMIC TESTING, TSUKUBA, JAPAN<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGES © PROGETTO SOFIE<br />
  15. 15. LOWER EMBODIED CARBON THROUGH ROBUSTNESS = DURABILITY<br />
  16. 16. HIGHER STORED CARBONUSED TO OFFSET MORE EMBODIED CARBON<br />ITEM CARBON FOOTPRINT TIMBER<br />Night in a hotel 25 kg CO2e 0.03 m3<br />Laptop computer 720 kg CO2e 0.9 m3<br />Flight – London to Adelaide return 5.7 t CO2e 7.2 m3<br />Average 40-year-old UK citizen 789 t CO2e 1,001 m3<br />Average 40-year-old Australian citizen 1,578 t CO2e 2,002 m3<br />SOURCE: HOW BAD ARE BANANAS?<br />
  17. 17. OPERATIONAL CARBONFORCOMFORT & HEALTH<br />
  18. 18. LOWER OPERATIONAL CARBONTHROUGH THERMAL STABILITY<br />MATERIAL THERMAL MASS STABILITY ACTIVITY<br /> c.ρ (kJ/m2K) λ / c.ρ (cm2/s) √ λ .c.ρ (kJ/m2K/s)<br />Solid Timber1,008 12 0.36 <br />Water 4,190 14 1.56<br />Brickwork 990 44 0.66 <br />Concrete 2,640 68 2.18<br />SIP Panel (EPS) 24 167 0.03<br />Air 1 2,500 0.01<br />
  19. 19. LOWER OPERATIONAL CARBON THROUGH MOISTURE STABILTY<br />The impact of hygroscopic materials (the ability of a material to absorb water from the air) is more effective than mechanical ventilation (0.5 ac / h)<br />SOURCE: RAKENNUSLEHTI, VTT, 2000<br />
  20. 20. SOLID TIMBER MATERIALS <br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE ©<br />
  21. 21. LOG CONSTRUCTION NEW-BUILD HOUSE, GRISONS, CH<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © GION A. CAMINADA<br />
  22. 22. LOG CONSTRUCTIONNEW-BUILD HOUSE, GRISONS, CH<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © GION A. CAMINADA<br />
  23. 23. LOG CONSTRUCTION NEW-BUILD SCHOOL, GRISONS, CH<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © GION A. CAMINADA<br />
  24. 24. BRETTSTAPELPLANAR ELEMENTS - DOWELLED<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE ©<br />
  25. 25. BRETTSTAPELLOW-TEC MANUFACTURE<br />
  26. 26. BRETTSTAPEL NARROW WIDTH<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  27. 27. BRETTSTAPEL EXTERNAL RACKING BOARD<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  28. 28. CROSSLAM PLANAR ELEMENTS - GLUED<br />
  29. 29. CROSSLAM PLANAR ELEMENTS - GLUED<br />Thickness: Typically 50-400mm<br />
  30. 30. CROSSLAM INDUSTRIAL MANUFACTURE<br />IMAGES © FINNFOREST MERK<br />
  31. 31. CROSSLAM WALLS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  32. 32. CROSSLAM FLOORS & ROOFS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  33. 33. CROSSLAM DIMENSIONAL STABILITY<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  34. 34. CROSSLAM SIMPLICITY - CONNECTIONS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  35. 35. CROSSLAM SIMPLICITY - AIRTIGHTNESS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  36. 36. CROSSLAM SIMPLICITY – INTERFACES<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  37. 37. BENEFITSSIMPLICITY - FIT-OUT<br />
  38. 38. SOLID TIMBER CONSTRUCTION <br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © KLH MASSIVBAU<br />
  39. 39. SOLID TIMBER CONSTRUCTIONPROCESS-DRIVEN – A B C<br />TIMBER DESIGN<br />INSTALLATION<br />MATERIAL SUPPLY<br />
  40. 40. SOLID TIMBER CONSTRUCTIONA - TIMBER DESIGN<br />TIMBER DESIGN<br />
  41. 41. TIMBER DESIGNTIMBER & VALUE ENGINEERING<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  42. 42. TIMBER DESIGN CNC INPUT DATA & INSTALLATION DRAWINGS <br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  43. 43. SOLID TIMBER CONSTRUCTIONB - MATERIAL SUPPLY<br />INSTALATION<br />
  44. 44. MATERIAL SUPPLYFOREST COVER<br />IMAGE © THOMAS STONEY BRYANS<br />
  45. 45. MATERIAL SUPPLY MATERIAL SOURCE<br />
  46. 46. SOLID TIMBER CONSTRUCTIONC - INSTALLATION<br />
  47. 47. INSTALLATION QUALITY ASSURANCE<br />
  48. 48. CASE STUDIES<br />IMAGE © KARAKUSEVIC CARSON<br />
  49. 49. SUNKEN HOUSE LONDON, UK<br />IMAGE © ED REEVE<br />
  50. 50. SUNKEN HOUSE STRUCTURAL CONCEPT<br />
  51. 51. SUNKEN HOUSE COMPONENT MODEL<br />
  52. 52. SUNKEN HOUSE COMPONENT MODEL<br />
  53. 53. SUNKEN HOUSE COMPONENT MODEL<br />
  54. 54. SUNKEN HOUSE MATERIALS<br />
  55. 55. SUNKEN HOUSE GROUNDWORKS<br />IMAGE © ED REEVE<br />
  56. 56. SUNKEN HOUSE GROUNDWORKS<br />IMAGE © ED REEVE<br />
  57. 57. SUNKEN HOUSE INSTALLATION - SITE<br />IMAGE © ED REEVE<br />
  58. 58. SUNKEN HOUSE INSTALLATION<br />
  59. 59. SUNKEN HOUSE INSTALLATION<br />
  60. 60. SUNKEN HOUSE INSTALLATION<br />
  61. 61. SUNKEN HOUSE INSTALLATION<br />
  62. 62. SUNKEN HOUSE ROOF PANELS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  63. 63. SUNKEN HOUSE ROOF PANELS<br />
  64. 64. SUNKEN HOUSE INSTALLATION - ROOF<br />
  65. 65. SUNKEN HOUSE INSTALLATION - ROOF<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  66. 66. SUNKEN HOUSE INSTALLATION - ROOF<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  67. 67. SUNKEN HOUSE DETAIL - ROOF<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  68. 68. SUNKEN HOUSE DETAIL - ROOF<br />
  69. 69. SUNKEN HOUSE DETAIL - ROOFLIGHT<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  70. 70. SUNKEN HOUSE EPDM ROOFING<br />
  71. 71. SUNKEN HOUSE TIMBER CLADDING<br />IMAGE © ED REEVE<br />
  72. 72. SUNKEN HOUSE TIMBER CLADDING<br />IMAGE © ED REEVE<br />
  73. 73. SUNKEN HOUSE TIMBER CLADDING<br />IMAGE © ED REEVE<br />
  74. 74. SUNKEN HOUSE TIMBER CLADDING<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © ED REEVE<br />
  75. 75. SUNKEN HOUSE KITCHEN / DINING<br />IMAGE © ED REEVE<br />
  76. 76. SUNKEN HOUSE CIRCULATION<br />IMAGE © ED REEVE<br />
  77. 77. SUNKEN HOUSE STUDIO<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />IMAGE © ED REEVE<br />
  78. 78. SUNKEN HOUSE PROJECT DATA<br />CLIENT<br />Private<br />ARCHITECT<br />Adjaye Associates<br />GROUNDWORKS<br />Wallace Contractors<br />TIMBER ENGINEER<br />Carbon Eng<br />FLOOR AREA<br />150 m2<br />INSTALLATION PERIOD<br />1 week<br />MATERIALS USED<br />Crosslam / Glulam / Hemp Insulation<br />STORED CARBON<br />58 t CO2e<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  79. 79. DARTINGTON SCHOOL DEVON, UK<br />IMAGE © WHITE DESIGN<br />
  80. 80. DARTINGTON SCHOOL DESIGN CONCEPT – FLAT-PACK<br />IMAGE © WHITE DESIGN<br />
  81. 81. DARTINGTON SCHOOL DESIGN CONCEPT -CLUSTER<br />IMAGE © WHITE DESIGN<br />
  82. 82. DARTINGTON SCHOOL COMPONENT MODEL – CLUSTER 3<br />
  83. 83. DARTINGTON SCHOOL GROUNDWORKS – PRECEDENT<br />BRE MODULAR CLASSROOM<br />
  84. 84. DARTINGTON SCHOOL GROUNDWORKS<br />IMAGES © WHITE DESIGN<br />
  85. 85. DARTINGTON SCHOOL TIMBER FLOOR SLAB<br />
  86. 86. DARTINGTON SCHOOL INSTALLATION<br />
  87. 87. DARTINGTON SCHOOL INSTALLATION<br />
  88. 88. DARTINGTON SCHOOL INSTALLATION<br />
  89. 89. DARTINGTON SCHOOL INSTALLATION<br />
  90. 90. DARTINGTON SCHOOL INSTALLATION<br />
  91. 91. DARTINGTON SCHOOL INSTALLATION<br />IMAGES © WHITE DESIGN<br />
  92. 92. DARTINGTON SCHOOL WINDOWS & DOORS<br />
  93. 93. DARTINGTON SCHOOL WINDOWS & DOORS<br />
  94. 94. DARTINGTON SCHOOL WOODFIBRE INSULATION<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  95. 95. DARTINGTON SCHOOL WOODFIBRE INSULATION<br />
  96. 96. DARTINGTON SCHOOL WOODFIBRE INSULATION<br />
  97. 97. DARTINGTON SCHOOL WOODFIBREINSULATION<br />IMAGES © WHITE DESIGN<br />
  98. 98. DARTINGTON SCHOOL WOODFIBRE INSULATION<br />IMAGES © WHITE DESIGN<br />
  99. 99. DARTINGTON SCHOOL WOODFIBRE INSULATION<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  100. 100. DARTINGTON SCHOOL TIMBER CLADDING<br />IMAGE © WHITE DESIGN<br />
  101. 101. DARTINGTON SCHOOL TIMBER CLADDING<br />IMAGE © WHITE DESIGN<br />
  102. 102. DARTINGTON SCHOOL CLASSROOM<br />IMAGE © WHITE DESIGN<br />
  103. 103. DARTINGTON SCHOOL CLASSROOM<br />
  104. 104. DARTINGTON SCHOOL EXTERNAL<br />IMAGE © WHITE DESIGN<br />
  105. 105. DARTINGTON SCHOOL EXTERNAL<br />IMAGE © WHITE DESIGN<br />
  106. 106. DARTINGTON SCHOOL PROJECT DATA<br />CLIENT<br />Devon Country Council<br />ARCHITECT<br />White Design<br />GROUNDWORKS ENGINEER<br />Ramboll<br />TIMBER ENGINEER<br />Carbon Eng<br />MAIN CONTRACTOR<br />Interserve<br />BASIC BUILD COST<br />£1,800 / m2<br />FLOOR AREA<br />2,030 m2<br />INSTALLATION PERIOD<br />12 weeks<br />MATERIALS USED<br />Crosslam / Glulam / Woodfibre Insulation<br />STORED CARBON<br />600 t CO2e<br />ENVIRONMENTAL RATING<br />BREEAM Excellent<br />ESTIMATED WATER USE<br />4.3 m3 / pupil / year<br />
  107. 107. WAINGELS COLLEGE BERKSHIRE, UK<br />IMAGE © HUFTON + CROW<br />
  108. 108. WAINGELS COLLEGE DESIGN CONCEPT – NATURAL DAYLIGHT<br />IMAGE © SHEPPARD ROBSON<br />
  109. 109. WAINGELS COLLEGEDESIGN CONCEPT – CENTRAL COURTYARD<br />IMAGE © SHEPPARD ROBSON<br />
  110. 110. WAINGELS COLLEGEDESIGN CONCEPT – CENTRAL COURTYARD<br />IMAGES © SHEPPARD ROBSON<br />
  111. 111. WAINGELS COLLEGE DESIGN CONCEPT – OPEN PLAN<br />IMAGE © SHEPPARD ROBSON<br />
  112. 112. WAINGELS COLLEGE LIGNATUR FLOOR & ROOF CASSETTES<br />
  113. 113. WAINGELS COLLEGE COMPONENT MODEL<br />
  114. 114. WAINGELS COLLEGE COMPONENT DRAWINGS - WALLS<br />
  115. 115. WAINGELS COLLEGE COMPONENT DRAWINGS - FLOOR<br />
  116. 116. WAINGELS COLLEGE COMPONENT DRAWINGS – ROOF<br />
  117. 117. WAINGELS COLLEGE COMPONENT DRAWINGS<br />
  118. 118. WAINGELS COLLEGE GROUNDWORKS<br />BRENDELAND & KRISOFFERSON ARKITEKTER<br />
  119. 119. WAINGELS COLLEGE INSTALLATION<br />
  120. 120. WAINGELS COLLEGE INSTALLATION<br />
  121. 121. WAINGELS COLLEGE INSTALLATION<br />
  122. 122. WAINGELS COLLEGE INSTALLATION<br />
  123. 123. WAINGELS COLLEGE FLOOR CASSETTES<br />
  124. 124. WAINGELS COLLEGE FLOOR CASSETTES<br />
  125. 125. WAINGELS COLLEGE FLOOR CASSETTES<br />IMAGE © HUFTON + CROW<br />
  126. 126. WAINGELS COLLEGE ROOF CASSETTES<br />
  127. 127. WAINGELS COLLEGE ROOF CASSETTES<br />
  128. 128. WAINGELS COLLEGE ROOF CASSETTES<br />IMAGE © HUFTON + CROW<br />
  129. 129. WAINGELS COLLEGE BESPOKETRUSS<br />IMAGE © SHEPPARD ROBSON<br />
  130. 130. WAINGELS COLLEGE BESPOKETRUSS<br />
  131. 131. WAINGELS COLLEGE BESPOKETRUSS<br />3.5m<br />
  132. 132. WAINGELS COLLEGE BESPOKE TRUSS - ASSEMBLY HALL<br />IMAGE © HUFTON + CROW<br />
  133. 133. WAINGELS COLLEGE CIRCULATION<br />IMAGE © HUFTON + CROW<br />
  134. 134. WAINGELS COLLEGE CIRCULATION<br />IMAGE © HUFTON + CROW<br />
  135. 135. WAINGELS COLLEGE RENDER /TIMBER CLADDING<br />IMAGE © HUFTON + CROW<br />
  136. 136. WAINGELS COLLEGE TIMBER CLADDING<br />IMAGE © HUFTON + CROW<br />
  137. 137. WAINGELS COLLEGE TIMBER CLADDING<br />IMAGE © HUFTON + CROW<br />
  138. 138. WAINGELS COLLEGE PROJECT DATA<br />CLIENT<br />Wokingham Borough Council<br />ARCHITECT<br />Sheppard Robson<br />GROUNDWORKS ENGINEER<br />Ramboll<br />TIMBER ENGINEER<br />Carbon Eng<br />MAIN CONTRACTOR<br />Willmott Dixon<br />BASIC BUILD COST<br />£2,200 / m2<br />FLOOR AREA<br />12,925 m2<br />INSTALLATION PERIOD<br />36 weeks<br />MATERIALS USED<br />Crosslam / Glulam / Lignatur Cassettes<br />STORED CARBON<br />2,285 t CO2e<br />ENVIRONMENTAL RATING<br />BREEAM Excellent<br />
  139. 139. BRIDPORT HOUSELONDON, UK<br />
  140. 140. BRIDPORT HOUSEDESIGN CONCEPT<br />IMAGE © KARAKUSEVIC CARSON<br />
  141. 141. BRIDPORT HOUSEBRIEF REQUIREMENT - UNDERGROUND SEWER<br />
  142. 142. BRIDPORT HOUSEDESIGN CONCEPT<br />IMAGE © KARAKUSEVIC CARSON<br />
  143. 143. BRIDPORT HOUSEDESIGN CONCEPT - STRUCTURE<br />IMAGES © KARAKUSEVIC CARSON<br />
  144. 144. BRIDPORT HOUSEBRIEF REQUIREMENT – UNIT MIX<br />
  145. 145. BRIDPORT HOUSESTRUCTURAL CONCEPT - LOAD TRANSFER<br />
  146. 146. BRIDPORT HOUSE STRUCTURAL CONCEPT - LOAD TRANSFER<br />
  147. 147. BRIDPORT HOUSE STRUCTURAL CONCEPT - STRENGTH / SETTLEMENT<br />
  148. 148. BRIDPORT HOUSE STRUCTURAL CONCEPT - STRENGTH / SETTLEMENT<br />IMAGE © WILMOTT DIXON<br />
  149. 149. BRIDPORT HOUSE STRUCTURAL CONCEPT - STRENGTH / SETTLEMENT<br />IMAGE © WILMOTT DIXON<br />
  150. 150. BRIDPORT HOUSESTABILITY<br />
  151. 151. BRIDPORT HOUSECOMPONENT MODEL<br />
  152. 152. BRIDPORT HOUSEINSTALLATION - SITE<br />IMAGE © KARAKUSEVIC CARSON<br />
  153. 153. BRIDPORT HOUSEINSTALLATION<br />IMAGE © WILMOTT DIXON<br />
  154. 154. BRIDPORT HOUSEINSTALLATION<br />IMAGE © WILMOTT DIXON<br />
  155. 155. BRIDPORT HOUSEWEEK 1<br />
  156. 156. BRIDPORT HOUSEWEEK 6<br />
  157. 157. BRIDPORT HOUSEWEEK 8<br />
  158. 158. BRIDPORT HOUSEWEEK 10<br />
  159. 159. BRIDPORT HOUSEFIT-OUT - SCREED<br />IMAGE © WILMOTT DIXON<br />
  160. 160. BRIDPORT HOUSEFIT-OUT<br />IMAGE © WILMOTT DIXON<br />
  161. 161. BRIDPORT HOUSEWINDOWS<br />IMAGES © WILMOTT DIXON<br />
  162. 162. BRIDPORT HOUSEBRICK CLADDING<br />
  163. 163. BRIDPORT HOUSE PROJECT DATA<br />CLIENT<br />Hackney Borough Council<br />ARCHITECT<br />Karakusevic Carson<br />GROUNDWORKS ENGINEER<br />Peter Brett Associates<br />TIMBER ENGINEER<br />Carbon Eng<br />MAIN CONTRACTOR<br />Willmott Dixon<br />BASIC BUILD COST<br />£1,400 / m2<br />FLOOR AREA<br />4,154 m2 (41 dwellings)<br />INSTALLATION PERIOD<br />10 weeks = 40% less than traditional<br />MATERIALS USED<br />Crosslam<br />STORED CARBON<br />1,200 t CO2e<br />OPERATIONAL CARBON<br />73.4 t CO2e / year<br />ENVIRONMENTAL RATING<br />CHS Level 4<br />
  164. 164. FUTURE AUSTRALASIALOCAL MATERIALS<br />
  165. 165. FUTURE AUSTRALASIALOCAL PROJECTS<br />
  166. 166. FUTURE AUSTRALASIA<br />
  167. 167. FUTURE AUSTRALASIA<br />
  168. 168. Innovative Timber Buildings<br />Questions?<br />Liam Dewar<br />Director, Eurban, UK<br />

×