GB/T 17435-1998 Design and installation of marine electrolytic seawater antifouling equipment
Basic Information
Standard ID:
GB/T 17435-1998
Standard Name: Design and installation of marine electrolytic seawater antifouling equipment
Chinese Name:
船用电解海水防污装置设计和安装
Standard category:National Standard (GB)
state:in force
Date of Release1998-07-24
Date of Implementation:1999-05-01
Introduction to standards:
This standard specifies the design, technical requirements, installation requirements, chlorine concentration detection, acceptance rules, inspection and maintenance of indirect (i.e. electrolytic cell) marine anti-fouling devices for electrolytic seawater. This standard is applicable to seawater electrolytic anti-fouling devices for steel ships, floating docks, offshore drilling platforms, etc. It can also be used as a reference for coastal factories and other places where marine biofouling occurs. GB/T 17435-1998 Design and installation of marine anti-fouling devices for electrolytic seawater GB/T17435-1998 standard download decompression password: www.bzxz.net
Some standard content:
IC5,47.020. 05
National Standard of the People's Republic of China
GB/T17435—1998
Design and installation of electrulysis ofseawater anti-fouling system for ship1998-07-24 Issuedbzxz.net
1999-05-01 Implementation
Issued by the State Administration of Quality and Technical Supervision
a/T17435
This standard comprehensively explains the technical requirements for the design and installation of seawater electrolysis system for ship. This standard is issued for the first time.
This standard is proposed by China National Navigation Industry Corporation. This standard is approved by China Reinsurance Corporation. This standard was drafted by: Luoyang Carbon Materials Research Institute, China Shipbuilding Industry Corporation (CMI), China Shipbuilding Industry Corporation (CMI), China Shipbuilding Industry Corporation (CMI), Dalian Shipyard.
The main drafters of this standard are: Zhang Jian, Zhang Fu, Yang Peng, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, Wang Xian, This can also be used as a reference for places where marine biofouling occurs, such as in industrial and other places.
2 Referenced Standards
The following standards contain provisions that may become the provisions of this standard through reference in this standard. At the time of publication of this standard, the versions shown are valid. All standards are subject to revision. The latest version of the following standards is discussed in detail to ensure the best performance of the standards. (B/T2?83-54 Basic requirements for low-pressure devices G3J2:75--SI: Modified sodium bicarbonate devices
3 Definitions
3.1 The surface of the main facility is covered by the animal, embrace and microorganism energy radiator. 3.2 Electrolyzed seawater is passed through a special anode and cathode to generate effective oxygen to prevent marine biological damage. 3.3 Description
refers to the system in which seawater electrolytes are generated in the process of electrolyzing seawater to produce a certain amount of water. 3.4 Gas release avilable ceiariae
Through the treatment, only parasitic acid and chlorate can inhibit the attachment and growth of microorganisms. 3.5 Killer esiduil
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