FUSION OF DESIGN AND PERFORMANCE FOR HIGH ......Northeastern University, Interdisciplinary Science...
Transcript of FUSION OF DESIGN AND PERFORMANCE FOR HIGH ......Northeastern University, Interdisciplinary Science...
FUSION OF DESIGN AND PERFORMANCE FOR HIGH PERFORMANCE FAÇADES
ZAK WORLD OF FAÇADES CONFERENCE
November 21, 2019
FIRM FACTS
Single Office Since 1932
• 170+ Person Studio
FUSION of Design + Performance
• Science & Healthcare
2019 AIA Architecture Firm of the Year
INTEGRATED DESIGN
7
79
Years of research
practice
Different staff
members involved in
research
Research projects26
RESEARCH
NATURAL VENTILATION IN HEALTHCARE
Window Configuration - Ventilation
EMBODIED CARBON IN FAÇADE SYSTEMS
THERMAL BRIDGING
Baseline R-Value: 20.4
Observed R-Value: 5.8
-72%
THERMAL BRIDGING
Baseline R-Value: 21.2
Simulated R-Value: 15.1-24%
You should be able to put your pen down and trace your insulative barrier around your whole building (at all scales) without having to pick up your pen. If you have to pick up your pen or something conductive is crossing through that barrier, you have a thermal bridge.
To minimize the impact of it:
1. Break the heat flow with thermal breaks
2. Minimize the penetration as much as possible (IE discontinuous elements)
3. Where something penetrates your insulative barrier, use a material that has a lower conductance (IE stainless steel rather than aluminum)
GLAZING & WINTER COMFORT
Radiant Discomfort Downdraft Discomfort
GLAZING & WINTER COMFORT
Cost/ft2 Window
Upgrade Double to Triple Pane $5.47
Add Perimeter Heat to Double Pane $53.20
GLAZING & WINTER COMFORT
Glazing and Winter Comfort Tool
AIA-TAP Innovation Award, 2016
Map shows global density of tool users
IMPACT AND
REACH
Countries outside
US has accessed
the tool
46
77
States have
accessed the tool
GLAZING & SUMMER COMFORT
FAÇADES & ENERGY PERFORMANCE
newbuildings.org/
http://newbuildings.org/resource/sensitivity-analysis-comparing-impact-design-operation-and-tenant-behavior-building-energy-performan/
INTEGRATION OF ENVELOPE & HVAC SYSTEM
INTEGRATION OF ENVELOPE & HVAC SYSTEMS
8’ CHILLED BEAM CAPACITY
8’ CHILLED BEAM CAPACITY
I2SL | SESSION A2October 16, 2017
Northeastern University, Interdisciplinary Science and Engineering Complex 2019 AIA COTE TOP TEN AWARD I Harleston Parker Medal, 2018
COMPETITION CONCEPT
THERMAL BRIDGING
Project Detail R-23.5
Typical Detail R-4.1
THERMAL BRIDGING
COST EFFECTIVE PERFORMANCE
Cost/ft2 Window
Upgrade Double to Triple Pane $5.47
Add Perimeter Heat to Double Pane $53.20
U-value 0.40 U-value 0.23
Central South University – Fifth XiangYa Hospital 2015 AIA National Healthcare Design Award, Unbuilt
NATURAL VENTILATION
VISUAL & THERMAL COMFORT
DAYLIGHT
VIEWS
OPTIMIZING VIEWS
OPTIMIZATION OF MATERIALS
10 cm 30 cm 50 cm 70 cm “smart” 10 cm 30 cm 50 cm 70 cm “smart” 10 cm 30 cm 50 cm 70 cm “smart”
HVAC System Size / CostShade Material Quantity Window Box Comfort
OPTIMIZATION OF MATERIALS
9% Reduction in HVAC
system size / cost
40% Increase hours of visual
& thermal comfort
36% Reduction in material
quantity for shade
100%of required energy
generated cleanly on site
97%of annual non-potable water
demand supplied by on-site
wastewater treatment plant
60%of the year natural
ventilation for patient rooms
Amherst College, New Science Center 2019 AIA COTE TOP TEN AWARD
77%Reduction inenergy use
Brick Masonry Weathering Steel Fins Custom Framed Curtianwall
DAYLIGHTOptimizing Glazing for Daylight Harvesting
IMPROVED THERMAL PERFORMANCEMinimizing Thermal Bridges
R-20
+50%
R-13
56% VLT
15% VLR (Outside)
Low Iron Glass
Neutral Color Coatings
Anti-Reflective Glass
0.16 COG U-Value
0.25 Assembly
Triple Insulating Glass
Coated Polyester
Suspended Films
Gas-filled Interspace
Second low-e (surf #4)
Warm edge spacer
0.28 SHGC
XXX
Low-e (surf #2)
Ceramic Frit
Interior Shading
Systems
IGU SELECTION
56% VLT
15% VLR (Outside)
Low Iron Glass
Neutral Color Coatings
Anti-Reflective Glass
0.16 COG U-Value
0.25 Assembly
Triple Insulating Glass
Coated Polyester
Suspended Films
Gas-filled Interspace
Second low-e (surf #4)
Warm edge spacer
0.28 SHGC
XXX
Low-e (surf #2)
Ceramic Frit
Interior Shading
Systems
IGU SELECTION
0.35 SHGC
22%Increase in
Peak Cooling
Load
62%
(3.9)
40%
(2.5)
11% (0.7)
32% (2.0)
29% (1.8)
48% (3.0)
46% (2.9)
47% (2.9)
33% (2.0)
29% (1.8)
22% (1.4)
17% (1.1)
8% (0.5)
11% (0.7)
32% (2.0)
29% (1.8)
100%
(6.9)
30% (2.1)
63% (4.3)
71% (4.9)
86% (5.9)
0% (0)
0% (0)
0% (0)
Shade Deployment: Glare + Solar Load
- 6%Decrease in
Peak Cooling
Load
Interior Shades
Solar Chimney
Radiant Floors
Nighttime Flush
Radiant Panels
Displacement Ventilation
PERFORMANCE CONCEPTSSustainable Opportunities
PERFORMANCE CONCEPTSSustainable Opportunities
Mostly Convective System
PERFORMANCE CONCEPTSSustainable Opportunities
Less energy than
building replacement80%Of floor area with direct
views to the outdoors72%
PAYETTE LABS AVERAGE ENERGY USE INTENSITY
DESIGN RECOGNITION
National Recognition
Regional Recognition
Specialty Awards