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Stormwater Management for Sustainable Urban Environments [Mīkstie vāki]

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  • Formāts: Paperback / softback, 256 pages, height x width: 270x215 mm, weight: 1590 g, 400 Illustrations, color
  • Izdošanas datums: 01-Feb-2017
  • Izdevniecība: Images Publishing Group Pty Ltd
  • ISBN-10: 1864707070
  • ISBN-13: 9781864707076
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  • Cena: 54,65 €
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Stormwater Management for Sustainable Urban EnvironmentsPalielināt
  • Formāts: Paperback / softback, 256 pages, height x width: 270x215 mm, weight: 1590 g, 400 Illustrations, color
  • Izdošanas datums: 01-Feb-2017
  • Izdevniecība: Images Publishing Group Pty Ltd
  • ISBN-10: 1864707070
  • ISBN-13: 9781864707076
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781864707076.html
Keywords:
As urbanisation progresses, urban environments have been confronted with many challenges, such as air pollution and stormwater disaster. The latter has been especially damaging in recent years, as vulnerable places suffer from inundating onslaughts of surface run-off following hurricanes and heavy rainfall. This book analyses the implementation of stormwater management practices. It presents the systematic theory behind these methods, and provides multiple case studies showing how drainage development can create a sustainable urban environment.
Preface 6(3)
Stormwater Management Methods and Planning
9(36)
Introduction: Stormwater Management Methods
10(2)
Best management practices (BMPs)
10(1)
Low impact development (LID)
11(1)
Compensatory techniques
11(1)
Sustainable urban drainage systems (SUDS)
11(1)
Water-sensitive urban design (WSUD)
11(1)
Green infrastructure (GI)
12(1)
Best Management Practices for "Sponge City"
12(1)
General Compliance Procedure for New Development and Redevelopment Projects
13(5)
Step 1 Implement program through development codes and planning documents
14(1)
Step 2 Develop pre-application stormwater concept plan
14(1)
Step 3 Undertake pre-application meeting
14(1)
Step 4a Review and approve concept plan; coordinate with other departments and agency reviews
14(1)
Step 4b Revise concept plan in response to comments
15(1)
Step 5 Develop final stormwater management plan
15(1)
Step 6a Review and approve final stormwater management plan; coordinate with other departments and agency reviews; issue permit; collect bond
16(1)
Step 6b Revise plan in response to comments
16(1)
Step 7 Construct post-construction stormwater BMPs
16(1)
Step 8 Inspect and verify post-construction stormwater BMPs
16(1)
Step 9 Develop and submit as-builts
17(1)
Step 10 Track and report inventory of BMPs
17(1)
Best Management Practice Selection and Design Methods
18(27)
Stormwater treatment capabilities
18(9)
BMP selection
27(18)
Stormwater BMP Specifications
45(301)
Introduction: "Self-Crediting" Better Site Design Practices
46(6)
Natural resources inventory checklist
46(1)
Preserve undisturbed natural areas, ecologically sensitive areas and trees and other vegetation
46(3)
Reduce clearing and grading limits
49(1)
Reduce setbacks and frontages
49(1)
Reduce roadway lengths and widths
50(1)
Reduce sidewalk and driveway lengths and widths
50(1)
Use fewer or alternative culs-de-sac
51(1)
Reduce parking lot footprints
51(1)
Create landscaping areas in parking lots
51(1)
Reduce building footprints
52(1)
1 Sheet Flow to Vegetated Filter Strips and Conservation Areas
52(13)
Introduction
52(3)
Typical details
55(2)
Feasibility criteria and design considerations
57(4)
Design criteria
61(4)
Design adaptations
65(1)
2 Impervious Surface Disconnection
65(10)
Introduction
65(3)
Typical details
68(1)
Feasibility criteria and design considerations
69(2)
Design criteria
71(4)
Design adaptations
75(1)
3 Bioretention
75(71)
Introduction
75(3)
Typical details
78(1)
Feasibility criteria and design considerations
79(2)
Design criteria
81(11)
Materials specifications
92(1)
Design adaptations
92(3)
Supplement 1 Water quality swale
95(4)
Supplement 2 Urban bioretention
99(6)
Supplement 3 Residential rain garden
105(3)
Case studies
108(38)
4 Permeable Pavement
146(26)
Introduction
146(2)
Typical details
148(1)
Feasibility criteria and design considerations
149(2)
Design criteria
151(7)
Design adaptations
158(2)
Case studies
160(12)
5 Grass Swale
172(18)
Introduction
172(2)
Typical details
174(1)
Feasibility criteria and design considerations
175(2)
Design criteria
177(6)
Design adaptations
183(1)
Case studies
184(6)
6 Infiltration
190(26)
Introduction
190(2)
Typical details
192(1)
Feasibility criteria and design considerations
193(1)
Design criteria
194(4)
Design adaptations
198(2)
Case studies
200(16)
7 Rainwater Harvesting
216(42)
Introduction
216(3)
Feasibility criteria and design considerations
219(2)
Design criteria
221(6)
Materials specifications
227(1)
Design adaptations
228(2)
Case studies
230(28)
8 Vegetated Roofs
258(20)
Introduction
258(2)
Typical details
260(1)
Feasibility criteria and design considerations
260(1)
Design criteria
261(4)
Design adaptations
265(1)
Case studies
266(12)
9 Filtration Practice
278(18)
Introduction
278(2)
Typical details
280(1)
Feasibility criteria and design considerations
281(2)
Design criteria
283(5)
Design adaptations
288(2)
Case studies
290(6)
10 Stormwater Wetlands
296(50)
Introduction
296(2)
Typical details
298(1)
Feasibility criteria and design considerations
298(4)
Design criteria
302(6)
Design adaptations
308(2)
Case studies
310(36)
Abbreviations and Terms 346(1)
References 347(3)
Index 350