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Sun, Wind, and Light: Architectural Design Strategies 3rd edition [Mīkstie vāki]

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(University of Oregon. Illustrations by V. Cartwright, Kansas State University), (College of Architecture and Design, The University of Tennessee at Knoxville)
  • Formāts: Paperback / softback, 432 pages, height x width x depth: 216x239x33 mm, weight: 680 g, Drawings: 150 B&W, 0 Color
  • Izdošanas datums: 18-Mar-2014
  • Izdevniecība: John Wiley & Sons Inc
  • ISBN-10: 0470945788
  • ISBN-13: 9780470945780
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Sun, Wind, and Light: Architectural Design Strategies 3rd editionPalielināt
  • Formāts: Paperback / softback, 432 pages, height x width x depth: 216x239x33 mm, weight: 680 g, Drawings: 150 B&W, 0 Color
  • Izdošanas datums: 18-Mar-2014
  • Izdevniecība: John Wiley & Sons Inc
  • ISBN-10: 0470945788
  • ISBN-13: 9780470945780
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780470945780.html
Keywords:
"This fully updated Third Edition covers principles of designing buildings that use the sun for heating, wind for cooling, and daylight for natural lighting. Using hundreds of illustrations and companion CD-ROM, this book offers practical strategies thatgive the designer the tools they need to make energy efficient buildings"--

An updated guide to designing buildings that heat with the sun, cool with the wind, and light with the sky.

This fully updated Third Edition covers principles of designing buildings that use the sun for heating, wind for cooling, and daylight for natural lighting. Using hundreds of illustrations, this book offers practical strategies that give the designer the tools they need to make energy efficient buildings.

  • Hundreds of illustrations and practical strategies give the designer the tools they need to make energy efficient buildings.
  • Organized to quickly guide the designer in making buildings respond to the sun, wind and light.

Contents Overview vii
SWL Printed Contents, abbreviated ix
SWL Electronic Contents, abbreviated xi
Alphabetic Contents of Bundles, Synergies and Strategies, SWL Electronic, and SWL Printed xv
Preface 1(12)
Introduction 13(7)
Part I NAVIGATION
20(30)
Navigation Matrix by Scale and Energy Topic
23(4)
Navigation by Design Strategy Maps
27(12)
Navigation by Climate
39(11)
Part II USING SUN, WIND & LIGHT
50(28)
Buildings and Energy Use
53(6)
Design Decision Chart
59(19)
Part III SYNERGIES
78(16)
S1 Climate Resources
80(2)
S2 Occupant Behaviors
82(2)
S3 Resource-Rich Environments
84(2)
S4 Spatial Zoning
86(2)
S5 Thermal Sailing
88(2)
S6 Multivalent Design
90(2)
S7 Active Tailored Systems
92(2)
Part IV BUNDLES
94(100)
Bundles Explained
97(6)
Making Your Own Bundles
103(5)
Some Fundamental Bundles
108(2)
B1 Neighborhood of Light
110(8)
B2 Cooling Neighborhood
118(10)
B3 Solar Neighborhood
128(10)
B4 Integrated Urban Patterns
138(10)
B5 Daylight Building
148(8)
B6 Passively Cooled Building
156(10)
B7 Passive Solar Building
166(10)
B8 Outdoor Microclimates
176(8)
B9 Responsive Envelope
184(10)
Part V FAVORITE DESIGN TOOLS, condensed
194(22)
Building Groups Scale
14 Daylight Spacing Angles
196(2)
20 Building Spacing for Solar Access
198(2)
Buildings Scale
54 Night Ventilation Potentials Map
200(2)
57 Daylight Uniformity Rule
202(2)
Building Parts Scale
74 Insulation Recommendations
204(2)
75 Sizing Direct Thermal Storage
206(2)
84 Passive Solar Glazing Area
208(2)
85 Sizing Windows for Daylighting
210(2)
86 Sizing Cross- and Stack-Ventilation
212(2)
106 Glazing Recommendations
214(2)
Part VI FAVORITE DESIGN STRATEGIES, condensed
216(35)
Unbuilt
A14 Energy Programming
218(2)
A24 Bioclimatic Chart
220(2)
Building Groups Scale
3 Topographic Microclimates
222(1)
7 Loose or Dense Urban Patterns
223(1)
Buildings Scale
24 Migration
224(1)
26 Cooling Zones
225(1)
28 Heating Zones
226(1)
29 Buffer Zones
227(1)
30 Permeable Buildings
228(2)
32 Locating Outdoor Rooms
230(1)
33 Atrium Building
231(1)
35 Thin Plan
232(1)
37 Deep Sun
233(1)
41 Daylight Zones
234(1)
43 Rooms Facing the Sun and Wind
235(1)
44 Cross-Ventilation Rooms
236(1)
46 Evaporative Cooling Towers
237(1)
48 Direct Gain Rooms
238(1)
49 Sunspaces
239(1)
53 Stack-Ventilation Rooms
240(1)
54 Night-Cooled Mass
241(1)
Building Parts Scale
60 Mass Arrangement
242(2)
63 Layer of Shades
244(1)
69 Ventilation Openings Arrangement
245(1)
78 Photovoltaic Walls and Roofs
246(1)
79 Solar Hot Water
247(1)
91 External Shading
248(3)
Part VII HIGH-PERFORMANCE BUILDINGS
251
P1 Energy Targets
252(10)
P2 Annual Energy Use
262(8)
P3 Net-Zero Energy Balance
270(6)
P4 Energy Use Intensity
276(4)
P5 Emissions Targets
280(8)
P6 Carbon-Neutral Buildings
288
Part VIII DETAILED DESIGN STRATEGIES
1(276)
Located in SWL Electronic
Part IX DETAILED ANALYSIS TECHNIQUES
277(16)
Located in SWL Electronic
Appendices located in SWL Printed
293(46)
A SWL Printed Contents, detailed
295(6)
B SWL Electronic Contents, detailed
301(10)
C Abbreviations and Unit Conversions
311(6)
D Glossary
317(14)
E Bibliography, SWL Printed only
331(8)
Indices
339(25)
Subject
341(46)
Designers and Precedents
387(12)
Design Tools
399
Appendices located in SWL Electronic
364
F Climate Data by Latitude/City
365(40)
G Additional Climate Data
405(17)
H Bibliography, SWL Electronic
422
Part I NAVIGATION
20(30)
See SWL Printed contents
Part II USING SUN, WIND & LIGHT
50(28)
See SWL Printed contents
Part III SYNERGIES
78(16)
See SWL Printed contents
Part IV BUNDLES
94(100)
See SWL Printed contents. See also list by levels in Part VIII
Part V FAVORITE DESIGN TOOLS, condensed. See SWL Printed contents
194(22)
Part VI FAVORITE DESIGN STRATEGIES, condensed. See SWL Printed contents
216(34)
Part VII HIGH PERFORMANCE BUILDINGS
250
See SWL Printed contents
Part VIII DETAILED DESIGN STRATEGIES
1(276)
Includes Bundles from SWL Printed in the sequence of levels
viii Building Groups Scale
3(107)
Level 9 Neighborhoods (See SWL Printed)
B1 Neighborhood of Light
110(8)
B2 Cooling Neighborhood
118(10)
B3 Solar Neighborhood
128(10)
B4 Integrated Urban Patterns
138
Level 8 Urban Fabric
5(1)
Streets, Open Spaces and Buildings
1 Converging Ventilation Corridors
6(2)
2 Shared Shade
8(3)
3 Topographic Microclimates
11(3)
4 Daylight Density
14(2)
5 Climatic Envelopes
16(3)
Streets and Buildings
6 Glazed Streets
19(2)
7 Loose or Dense Urban Patterns
21(2)
8 Gradual Height Transitions
23(1)
Open Spaces and Buildings
9 Interwoven Buildings and Planting
24(3)
10 Interwoven Buildings and Water
27(1)
11 Winter Courts
28(3)
12 Neighborhood Sunshine
31(3)
Level 7 Urban Elements
33(1)
Streets, Open Spaces and Buildings
13 Daylight Blocks
34(2)
14 Daylight Envelopes
36(4)
15 Solar Envelopes
40(9)
16 Shadow Umbrella
49(4)
17 Breezy or Calm Streets
53(2)
18 Tall Building Currents
55(3)
Open Spaces and Buildings
19 Dispersed Buildings
58(2)
20 East-West Elongated Building Groups
60(3)
21 Windbreaks
63(2)
22 Green Edges
65(1)
23 Overhead Shades
66(82)
viii Buildings Scale
68(80)
Level 6 Whole Buildings (See SWL Printed)
B5 Daylight Building
148(8)
B6 Passively Cooled Building
156(10)
B7 Passive Solar Building
166(10)
B8 Outdoor Microclimates
176
Level 5 Room Organizations
70(1)
Rooms and Courtyards
24 Migration
71(3)
25 Periodic Transformations
74(2)
26 Cooling Zones
76(3)
27 Mixed Mode Cooling
79(2)
28 Heating Zones
81(2)
29 Buffer Zones
83(3)
30 Permeable Buildings
86(5)
31 Borrowed Daylight
91(3)
32 Locating Outdoor Rooms
94(3)
33 Atrium Building
97(3)
Rooms
34 Clustered Rooms
100(1)
35 Thin Plan
101(2)
36 East-West Plan
103(2)
37 Deep Sun
105(3)
38 Skylight Building
108(3)
39 Moving Heat to Cold Rooms
111(3)
40 Stratification Zones
114(1)
41 Daylight Zones
115(1)
42 Convective Loops
116(68)
Level 4 The Room
117(67)
B9 Responsive Envelope (See SWL Printed)
184
Rooms and Courtyards
43 Rooms Facing the Sun and Wind
118(2)
44 Cross-Ventilation Rooms
120(3)
45 Wind Catchers
123(3)
46 Evaporative Cooling Towers
126(3)
47 Toplight Room
129(3)
48 Direct Gain Rooms
132(2)
49 Sunspaces
134(3)
50 Thermal Storage Walls
137(2)
51 Thermal Collector Walls and Roofs
139(4)
52 Roof Ponds
143(2)
53 Stack-Ventilation Rooms
145(2)
54 Night-Cooled Mass
147(3)
55 Daylight Room Geometry
150(1)
56 Glare-Free Rooms [ in SWL4]
151(1)
57 Sidelight Room Depth
152(2)
Courtyards
58 Breezy or Calm Courtyards
154(3)
59 Shady Courtyards
157(6)
viii Building Parts Scale
160(2)
Level 3 Building Systems
162(1)
Walls, Roof and Floors
60 Mass Arrangement
163(5)
61 Water Edges
168(1)
62 Insulation Outside
169(1)
Walls and Roofs
63 Layer of Shades
170(3)
Walls and Windows
64 Reflected Sunlight
173(3)
Roofs
65 Open Roof Structure
176(1)
66 Daylight Roof
177(3)
Window
67 Separated or Combined Openings
180(2)
68 Window Placement
182(3)
69 Ventilation Openings Arrangement
185(2)
70 Well-Placed Windows
187(1)
Systems
71 Sympathetic HVAC Systems [ in SWL4]
188(1)
72 Mechanical Heat Distribution
189(3)
73 Electric Light Zones
192(4)
Level 2 Elements
194(2)
Walls, Roof and Floors
74 Skin Thickness
196(7)
75 Thermal Mass
203(5)
76 Earth Edges
208(3)
77 Radiant Surfaces [ in SWL4]
211(1)
Walls and Roofs
78 Photovoltaic Roofs and Walls
212(3)
79 Solar Hot Water
215(3)
80 Breathing Walls
218(2)
81 Solar Reflectors
220(2)
Walls and Windows
82 Low Contrast
222(1)
Roofs and Windows
83 Skylight Wells
223(1)
Windows
84 Solar Apertures
224(3)
85 Daylight Apertures
227(2)
86 Ventilation Apertures
229(2)
87 Air Flow Windows
231(1)
88 Light Shelves
232(3)
89 Movable Insulation
235(2)
90 Daylight Enhancing Shades
237(2)
91 External Shading
239(8)
92 Internal and In-between Shading
247(2)
Lighting
93 Task Lighting
249(1)
Storage
94 Rock Beds
250(3)
Distribution
95 Mechanical Mass Ventilation
253(2)
96 Mechanical Space Ventilation
255(2)
97 Ducts and Plenums
257(2)
98 Earth-Air Heat Exchangers
259(2)
Equipment
99 Air-Air Heat Exchangers
261(2)
100 Heat Pumps [ in SWL4]
263(1)
Controls
101 Manual or Automated Controls
264(2)
Level 1 Materials
265(1)
Walls, Roofs and Floors
102 Mass Surface Absorptance
266(1)
103 Daylight Reflecting Surfaces
267(1)
104 Exterior Surface Color
268(2)
Walls and Roofs
105 Double Skin Materials
270(3)
Windows
106 Window and Glass Types
273(4)
Part IX DETAILED ANALYSIS TECHNIQUES
277(16)
A Climate as a Context
279(36)
Sun
A1 Sundial
280(3)
A2 Sun Path Diagram
283(2)
A3 Solar Radiation
285(3)
Wind
A4 Wind Rose
288(2)
A5 Wind Square
290(2)
A6 Air Movement Principles
292(5)
Sun and Wind
A7 Site Microclimates
297(5)
Light
A8 Sky Cover
302(3)
A9 Daylight Availability
305(3)
A10 Daylight Obstructions
308(2)
A11 Design Daylight Factor
310(3)
Comfort
A12 Temperature and Humidity [ in SWL4]
313(1)
A13 Adaptive Comfort Criteria
314(1)
B Program and Use
315(14)
Occupancy
A14 Energy Programming
316(2)
A15 Load-Responsive Scheduling
318(2)
A16 Occupancy Heat Gain
320(3)
Electric Lighting
A17 Electric Lighting Heat Gain
323(2)
Equipment
A18 Equipment Heat Gain
325(1)
A19 Electric Loads
326(2)
A20 Service Hot Water Loads
328(1)
C Form and Envelope
329(9)
A21 Skin Heat Flow
330(2)
A22 Window Solar Gain
332
A23 Ventilation or Infiltration Gain and Loss
325(13)
D Combining Climate, Program and Form
338
Design Strategies
A24 Bioclimatic Chart
339(4)
A25 Earth Contact
343(1)
Heating and Cooling Patterns
A26 Shading Calendar
344(6)
A27 Total Heat Gains and Losses
350(6)
A28 Balance Point Temperature
356(1)
A29 Balance Point Profiles
357
Appendices
Appendices Located in SWL Printed
293(71)
A SWL Printed Contents, detailed
295(6)
B SWL Electronic Contents, detailed
301(10)
C Abbreviations and Unit Conversions
311(6)
D Glossary
317(14)
E Bibliography, SWL Printed only
331(33)
Appendices located in SWL Electronic
364
F Climate Data by Latitude/City
365(40)
G Additional Climate Data
405(17)
H Bibliography, SWL Electronic
422
Indices (See SWL Printed)
339
Subject
341(46)
Designers and Precedents
387(12)
Design Tools
399
MARK DEKAY is a registered architect and Associate Professor of architecture at the University of Tennessee, Knoxville. He is a Fulbright Scholar, a Climate Reality Leadership Corps member, author of Integral Sustainable Design: Transformative Perspectives and editor of the UT/RedVector.com online Sustainable Design and Green Building continuing education program.

G. Z. BROWN is a registered architect and Professor of Architecture at the University of Oregon. He is director of the UO Energy Studies in Buildings Laboratory (ESBL) in Portland and Eugene and coauthor of InsideOut: Design Procedures for Passive Environmental Technologies and Natural Ventilation in Northwest Buildings.