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BS ISO 24536:2019

BS ISO 24536:2019

$198.66

Service activities relating to drinking water supply, wastewater and stormwater systems. Stormwater management. Guidelines for stormwater management in urban areas

Published By Publication Date Number of Pages
BSI 2019 66
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This document provides guidance to stormwater management authorities and relevant stakeholders on both structural and non-structural stormwater management approaches. The guidance includes consideration of relevant policies, planning, design criteria and implementation processes for stormwater management, and performance evaluation. This document can be applied to new stormwater systems and to the extension or improvement of existing systems for both fully separated and combined storm and sanitary sewers.

This document is applicable to stormwater sewer systems as well as combined sewer systems.

This document is not applicable to sanitary sewer systems.

PDF Catalog

PDF Pages PDF Title
2 undefined
8 Foreword
9 Introduction
11 1 Scope
2 Normative reference
3 Terms and definitions
4 General overview
4.1 Principles
12 4.2 Basic concepts
13 4.3 Stormwater management process
14 5 ​Objectives
18 6 Functional requirements
6.1 General
19 6.2 Protection from surface water flooding
6.3 Protection from sewer flooding
20 6.4 Protection of surface receiving water bodies
6.5 Protection of groundwater
6.6 Maintainability
6.7 Integrity of structures
6.8 Sustainable use of products and materials
6.9 Sustainable use of energy
6.10 Protection of adjacent structures and utility services
6.11 Maintaining the flow
6.12 Watertightness
6.13 Prevention of odours and emission of toxic, explosive and corrosive gases
21 6.14 Prevention of noise and vibration
6.15 Input quality
6.16 Protection of downstream drainage systems
6.17 Protection from natural disaster events
6.18 Health and safety
6.18.1 General
6.18.2 Public health and safety
6.18.3 Occupational health and safety
22 7 Performance requirements
7.1 General
7.2 Examples of performance requirements
7.2.1 Protection of receiving water bodies
24 7.2.2 Protection from flooding
25 7.2.3 Structural integrity and design working life
8 Design criteria
8.1 Introduction
26 8.2 Hydraulic design criteria
8.2.1 Introduction
8.2.2 Full pipe design rainfall criteria
27 8.2.3 Flooding design criteria
28 8.2.4 Effect on downstream water bodies
29 8.3 Environmental design criteria
30 8.4 Structural design criteria
8.5 Operation and maintenance (O&M) design criteria
8.6 Amenity and biodiversity design criteria
8.6.1 Amenity design criteria
8.6.2 Biodiversity design criteria
31 9 Investigation
9.1 Introduction
9.2 Purpose of investigation
32 9.3 ​Review of performance information
33 9.4 Determine the scope of investigation
9.5 ​Review existing information
34 9.6 Inventory update
35 9.7 Hydraulic investigation
9.8 Hydrology
9.8.1 Selection of the design rainfall
37 9.8.2 Flood occurrence probability
9.8.3 Water quantity
9.8.4 Water quality
38 9.9 Environmental investigation
9.10 Structural investigation
39 9.11 Operational investigation
9.12 Existing facilities
9.13 Social consequences
10 ​Assessment
10.1 Introduction
40 10.2 ​Assessment of the hydraulic performance
10.3 ​Assessment of environmental impact
41 10.4 ​Assessment of structural condition
10.5 ​Assessment of operational performance
10.6 ​Assessment of social and economic benefits and public satisfaction
10.7 Comparison with performance requirements
10.8 Identification of unacceptable impacts
10.9 Identification of causes of performance deficiencies
10.10 Setting goals
10.11 Prioritization of measures
42 11 ​Planning
11.1 ​Planning principles
11.2 Basic planning concepts
43 11.3 System components
11.3.1 Overview
11.3.2 Components for quantity control
44 11.3.3 Components for quality control
45 11.4 Asset-related solutions
11.4.1 General
46 11.4.2 Stormwater network
11.4.3 Sustainable drainage systems
47 11.4.4 Utilization of existing components
48 11.4.5 Asset-related solutions through collaboration with other projects
50 11.5 Non-asset-related solutions
11.5.1 General
11.5.2 Demand control
51 11.5.3 Flood resilience approaches
11.5.4 Disaster preparedness and response
53 11.5.5 Emergency response and recovery
54 11.5.6 Utilization of information and communication technology (ICT)
11.5.7 Insurance
55 11.6 Management aspects of planning
11.7 Phased implementation plan
56 12 System performance evaluation
12.1 General
12.2 Cost-benefit analysis
12.3 ​Evaluation of system performance
57 12.4 ​Monitoring of system performance
12.5 Retrospective evaluation
58 Annex A (informative) The concept of the largest recorded rainfalls
60 Annex B (informative) Cost-benefit analysis: example of calculation methodologies
64 Bibliography

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BS ISO 24536:2019
$198.66