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GB 50014-2021 related PDF English

GB 50014-2021 (GB50014-2021) & related versions
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GB 50014-2021EnglishRFQ ASK 3 days Code for design of outdoor wastewater engineering GB 50014-2021 Valid GB 50014-2021
GB 50014-2006English140 Add to Cart 0-9 seconds. Auto delivery. [GB 50014-2014 Edition] Code for design of outdoor waste-water engineering GB 50014-2006 Obsolete GB 50014-2006



GB 50014-2021: PDF in English
1UDC NATIONAL STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA Code for design of outdoor wastewater engineering (Edition 2014) Issued on January 18, 2006 Implemented on June 01, 2006 Issued by General Administration of Quality Supervision, Inspection and Quarantine of the People’s Republic of China Standardization Administration of the People’s Republic of China Contents 1 General. 14 2 Terms and Symbols..16 2.1 Terms.16 2.2 Symbols.. 25 3 Designed Flow Amount and Water Quality..29 3.1 Domestic Sewerage Amount and Industrial Wastewater Amount. 29 3.2 Storm Water Amount.. 30 3.3 Combined Water Amount.. 32 3.4 Designed water quality.. 33 4 Sewerage Pipe Ditch and Attached Structures.. 34 4.1 General Requirements.. 34 4.2 Calculation of water Power.. 35 4.3 Pipe.. 37 4.4 Examination Well..39 4.5 Water Drop Well.. 40 4.6 Water Seal Well..40 4.7 Storm-water Inlet.. 40 4.8 Intercepting Well..41 4.9 Water outlet..43 4.10 Sewer System of Grade Separation Road..44 4.11 Inverted Siphon..44 4.12 Canal. 45 4.13 Pipe Integration..46 5 pumping Station..50 5.1 General.50 5.2 Design Flow and Design Lift.50 5.3 Collecting Basin.51 5.4 Design of Pump House.. 52 5.5 Water Outlet Facility..54 6 Sewage Treatment..55 6.1 Choice of Factory Location and General Layout.. 55 6.2 General Provisions..57 6.3 Bar Screen..58 6.4 Grit Chamber.. 59 6.5 Sedimentation Tank. 60 6.6 Activated sludge Process. 62 6.7 Chemical way of eliminating phosphorus. 69 6.8 Oxygen supplying facility.. 70 6.9 Biological membrane methods. 72 6.10 Backflow sludge and surplus sludge. 75 6.11 Water natural processing..76 6.12 Sewage Deeply Processing and Reuse.. 78 6.13 Disinfection..81 7 Sludge processing and handling.. 82 7.1 General requirements..82 7.2 Sludge Thickenings..82 7.3 Sludge digestion.82 7.4 Sludge mechanical dewatering. 85 7.5 Sludge Transportation.86 7.6 Sludge Desiccation Burning.. 87 7.7 Sludge Comprehensive Utilization.88 8 Examinations and Control.. 88 8.1 General Requirements.. 88 8.2 Examination. 88 8.3 Controls..89 8.4 Computers Control Management System..89 Appendix A Method of Establishing Rainstorm Intensity Formula. 90 Appendix B The Smallest Net Distance Between the Drainage Channel and other Underground Pipes (Construction).92 Explanation of Wording in this Standard..94 1 General 1.0.1 This Code has been worked out for the purpose of carrying out the scientific views of development for the design of wastewater engineering in China, meeting the national laws and specifications, reaching the requirements to control the water pollution, improving and protecting the environment, improving the health of people and ensuring the safety. 1.0.2 This code applies to the design for permanent outdoor wastewater engineering that is newly built, expanded built or rebuilt in urban, industrial district and residential district. 1.0.3 The design for wastewater engineering shall be mainly according to the approved general planning of the cities, towns, and the special planning of the wastewater engineering, it shall be proceeded from the whole condition, according to the planning year limit, scale of engineering, economic benefit, social benefit and environment benefit, the relation of industrial and agriculture, urbanization and non urbanization district, near future and future, concentration and decentralization, discharging and utilization in urban shall be correctly treated. After the overall verification, the protection of environment, economization of lands, advanced technology, reasonable economic, reliable safety can be reached to fit the local real conditions. 1.0.3ADrainage engineering design shall be based on urban drainage and sewage treatment planning and coordinate with urban flood control, river way system, road traffic, green space, environmental protection, sanitation and other special planning and design. Drainage facility design shall be based on the requirements of urban planning blue line and water face ratio requirement, make full use of natural storage and drainage facilities; elevation layout of different regions shall be based on the nature of land used to meet the drainage requirements of different regions. 1.0.4 The choice of the sewerage system (separate system and combined system) shall meet the following provisions. 1. Determined according to the general planning of the urban, combining the integrated consideration of the local landform characteristics, hydrological conditions, water body status, weather characteristics, former sewerage facilities, degree of the wastewater treatment, the water exit utilization and so on. 2. Different sewerage system can be adopt in different district in the same urban. 3. In addition to arid region with low rainfall, the sewerage system shall set wastewater dam facilities. 4 Existing combined sewer systems should be required to carry the the implementation of rain sewage diversion transformation according to urban drainage plan. 5 For the areas that temporarily do not have the conditions of rain and sewage diversion, measures to closure, a combination of regulation and storage and handling should be taken, to improve interception ratio, strengthen pollution control in early rainy days. 1.0. 4A Comprehensive rainwater management should be in accordance with Low Impact Development (LID) concept, using source reduction, process control, end processing and other methods to control point source pollution, prevent water logging disasters and improve utilization of 2 Terms and Symbols 2.1 Terms 2.1.1Wastewater Engineering, sewerage Engineering of collecting, transporting, treating, recycling and proposal wastewater and storm water. 2.1.2Waste water engineering system Entirety composed of the facilities of collecting, transporting, treating, recycling and proposal wastewater and storm water in a certain way. 2.1.3 Sewerage system Way that collects, transports the urban wastewater and storm water in one district. The two basic ways are combined system and separate system. 2.1.4Wastewater Facilities General term of the pipes, structures and facilities in the wastewate r engineering. 2.1.5 Combined system Sewerage way to collect and transport the urban wastewater and storm water using the same pipe ditch system. 2.1.5A Combined sewer overflow The condition that the water over the closure capacity is discharged into the water body when there is rainfall in combined sewer systems. 2.1.6 Separate System Sewerage way to collect and transport the urban wastewater and storm water using differ ent pipe ditch system. 2.1.7 Urban Wastewater General term of discharging all kinds of urban sewerage and wastewater. It is composed by integrated domestic wastewater, industrial wastewater and infiltrated ground water. In the combined sewerage system, it also includes the intercepted storm water. 2.1.8 Urban Wastewater System Entirety composed of the facilities of collecting, transporting, treating, recycling and proposal the urban wastewater in a certain way. 2.1.8A Diffuse pollution The phenomenon that the receiving water body is contaminated by the pollutants from the atmospheric and earth surface, which are eroded into the receiving water body by rainfall and overland runoff. 2.1.8B Low impact development (LID) Emphasizing that urban development should reduce the impact on the environment. Its core is based on concept of source control and delaying the impact load, constructing the town drainage resulting in the generation of water disaster on urban ground . 2.1.20B Local flooding prevention and control system A combination of engineering facilities and non-engineering measures for preventing and responding to local flooding in a certain way, including natural and artificial facilities and management measures for rainwater harvesting, transportation, regulation and storage, leakage, treatment and use. 2.1.20C Recurrence interval for local flooding design Rainstorm recurrence interval for local flooding prevention and control system design, so that depth impounded water on grounds, roads and other areas do not exceed certain standards. Recurrence interval for local flooding design is longer than recurrence interval for storm sewer design. 2.1.21 Time of concentration Time that the rainfall runoffs from the most far point of surface in the relative catchments area to the rainfall pipe ditch entrance, for short, concentration time. 2.1.22 Interception Ratio Ratio of the intercepted storm water amount during the rainfall to the designed dry weather flow amount in the combined sewerage system. 2.1.23 Drainage Pumping Station General term of sewerage pumping station, storm water pumping station and combined sewerage pumping station. 2.1.24 Sewerage Pumping Station Pumping station to pump wastewater in the separate sewerage system. 2.1.25Storm Water Pumping Station Pumping station to pump storm water in the separate sewerage system. 2.1.26Combined Sewerage Pumping Station Pumping station to pump wastewater and the intercepted storm water, storm water in the combined sewerage system. 2.1.27 Primary Treatment Process only to settle the wastewater. 2.1.28 Secondary Treatment Process to settle and biologically treat the wastewater. 2.1.29 Activated Sludge Process, Suspended Growth Process One method for the biological treatment of the wastewater. This method is to continually mix and culture for all kinds of microbe colony in the wastewater in artificial condition to form the activated sludge in suspend status. Using the biological action of the activated sludge, the organic pollution in the wastewater is decomposed and removed, the sludge is separated from the water. Most sludge is returned into the biological reaction tank, the extra one is discharged out of the activated sludge system as the excess activated sludge. 2.1.30 Biologi... ......

BASIC DATA
Standard ID GB 50014-2021 (GB50014-2021)
Description (Translated English) Code for design of outdoor wastewater engineering
Sector / Industry National Standard
Word Count Estimation 284,242
Date of Issue 2021-04-09
Date of Implementation 2021-10-01
Older Standard (superseded by this standard) GB 50014-2006