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COE CWGS 16251 - EXCITATION SYSTEM RETROFITS HYDRO-TURBINE AC GENERATORS Organization: COE
Date: 1993-09-01
SAC - GB/T 9652.2-97 - TEST ACCEPTANCE CODES OF GOVERNORS AND PRESSURE OIL SUPPLY UNITS FOR HYDRO-TURBINES Organization: SAC
Date: 1997-04-10
SAC - GB/T 9652.2-97 - TEST ACCEPTANCE CODES OF GOVERNORS AND PRESSURE OIL SUPPLY UNITS FOR HYDRO-TURBINES Organization: SAC
Date: 1997-04-10
DS/EN 62364 - HYDRAULIC MACHINES - GUIDE FOR DEALING WITH HYDRO-ABRASIVE EROSION IN KAPLAN, FRANCIS, AND PELTON TURBINES Organization: DS
Date: 2013-09-04
Description: These guidelines do not include: - details such as hydraulic profile shapes which should be determined by the hydraulic design experts for a given site; - develop guidelines based on 'experience data' concerning the relative resistance of materials faced with particle abrasion problems; - develop guidelines concerning the maintainability of abrasion resistant materials and hard facing coatings; - develop guidelines on a recommended approach, which owners could and should take to ensure that specifications communicate the need for particular attention to this aspect of hydraulic design at their sites without establishing criteria which cannot be satisfied because the means are beyond the control of the manufacturers - and develop guidelines concerning operation mode of the hydro turbines in water with particle materials to increase the operation life.
IEC 62364 - HYDRAULIC MACHINES – GUIDE FOR DEALING WITH HYDRO-ABRASIVE EROSION IN KAPLAN, FRANCIS, AND PELTON TURBINES - EDITION 1.0 Organization: IEC
Date: 2013-06-01
Description: These guidelines do not include details such as hydraulic profile shapes which should be determined by the hydraulic design experts for a given site; c) develop guidelines based on "experience data" concerning the relative resistance of materials faced with particle abrasion problems; d) develop guidelines concerning the maintainability of abrasion resistant materials and hard facing coatings; e) develop guidelines on a recommended approach, which owners could and should take to ensure that specifications communicate the need for particular attention to this aspect of hydraulic design at their sites without establishing criteria which cannot be satisfied because the means are beyond the control of the manufacturers; f) develop guidelines concerning operation mode of the hydro turbines in water with particle materials to increase the operation life; It is assumed in this Guide that the water is not chemically aggressive.
CENELEC - EN 62364 - HYDRAULIC MACHINES - GUIDE FOR DEALING WITH HYDRO-ABRASIVE EROSION IN KAPLAN, FRANCIS, AND PELTON TURBINES Organization: CENELEC
Date: 2013-08-01
Description: These guidelines do not include details such as hydraulic profile shapes which should be determined by the hydraulic design experts for a given site; c) develop guidelines based on "experience data" concerning the relative resistance of materials faced with particle abrasion problems; d) develop guidelines concerning the maintainability of abrasion resistant materials and hard facing coatings; e) develop guidelines on a recommended approach, which owners could and should take to ensure that specifications communicate the need for particular attention to this aspect of hydraulic design at their sites without establishing criteria which cannot be satisfied because the means are beyond the control of the manufacturers; f) develop guidelines concerning operation mode of the hydro turbines in water with particle materials to increase the operation life; It is assumed in this Guide that the water is not chemically aggressive.
CEI EN 62364 - HYDRAULIC MACHINES - GUIDE FOR DEALING WITH HYDRO-ABRASIVE EROSION IN KAPLAN, FRANCIS AND PELTON TURBINES Organization: CEI
Date: 2014-04-01
Description: These guidelines do not include details such as hydraulic profile shapes which should be determined by the hydraulic design experts for a given site; c) develop guidelines based on "experience data" concerning the relative resistance of materials faced with particle abrasion problems; d) develop guidelines concerning the maintainability of abrasion resistant materials and hard facing coatings; e) develop guidelines on a recommended approach, which owners could and should take to ensure that specifications communicate the need for particular attention to this aspect of hydraulic design at their sites without establishing criteria which cannot be satisfied because the means are beyond the control of the manufacturers; f) develop guidelines concerning operation mode of the hydro turbines in water with particle materials to increase the operation life; It is assumed in this Guide that the water is not chemically aggressive.
AFNOR - NF EN 62364 - HYDRAULIC MACHINES - GUIDE FOR DEALING WITH HYDRO-ABRASIVE EROSION IN KAPLAN, FRANCIS AND PELTON TURBINES Organization: AFNOR
Date: 2013-12-13
BSI - BS EN 62364 - HYDRAULIC MACHINES — GUIDE FOR DEALING WITH HYDRO-ABRASIVE EROSION IN KAPLAN, FRANCIS, AND PELTON TURBINES Organization: BSI
Date: 2013-09-30
BSI - 17/30338675 DC - DRAFT BS EN 62364 HYDRAULIC MACHINES - GUIDE FOR DEALING WITH HYDRO-ABRASIVE EROSION IN KAPLAN, FRANCIS AND PELTON TURBINES Organization: BSI
Date: 2017-01-31
BIS - IS 12800: PART 2 - GUIDELINES FOR SELECTION OF TURBINES, PRELIMINARY DIMENSIONING AND LAYOUT OF SURFACE HYDRO-ELECTRIC POWER HOUSE PART 2 PUMPED STORAGE POWER HOUSES - INCLUDES AMD 1: 1993; AMD 2: 2008 Organization: BIS
Date: 1989-01-01
BIS - IS 12800: PART 1 - GUIDELINES FOR SELECTION OF TURBINES, PRELIMINARY DIMENSIONING AND LAYOUT OF SURFACE HYDRO-ELECTRIC POWER HOUSES PART 1 MEDIUM AND LARGE POWER HOUSES Organization: BIS
Date: 1993-01-01
IEEE 492 - GUIDE FOR OPERATION AND MAINTENANCE OF HYDRO-GENERATORS Organization: IEEE
Date: 1999-01-28
Description: In this guide, the term hydro-generator is used to describe a synchronous machine coupled to a hydraulic turbine or pump-turbine.
DS/EN 60308 - HYDRAULIC TURBINES - TESTING OF CONTROL SYSTEMS Organization: DS
Date: 2005-08-01
Description: It is not limited to the actual controller tasks but also include other tasks which may be assigned to a control system, such as for instance control tasks, safety, provision for the actuating energy.The testing of control systems for hydro turbines can generally fulfil the following tasks:- verification of system characteristics as per contact specification;- verification of general proper functioning in the workshop and/or on site;- tests to prove the fulfilment of guarantees;- assessment of the actual state of an existing control system with regard to the question of repair or replacement.
IEC 60308 - HYDRAULIC TURBINES – TESTING OF CONTROL SYSTEMS - EDITION 2.0 Organization: IEC
Date: 2005-01-01
Description: It is not limited to the actual controller tasks but also include other tasks which may be assigned to a control system, such as for instance sequence control tasks, safety, provision for the actuating energy. The testing of control systems for hydro turbines can generally fulfil the following tasks: – verification of system characteristics as per contract specification; – verification of general proper functioning in the workshop and/or on site; – tests to prove the fulfilment of guarantees; – assessment of the actual state of an existing control system with regard to the question of repair or replacement.
IEEE 1665 - GUIDE FOR THE REWIND OF SYNCHRONOUS GENERATORS, 50 HZ AND 60 HZ, RATED 1 MVA AND ABOVE Organization: IEEE
Date: 2009-09-11
Description: The general parameters for this guide apply to 50 Hz or 60 Hz synchronous generators driven by reciprocating engines, steam turbines, combustion turbines, and hydro turbines. The guide generally applies to the stator and rotor of generators with rated outputs of 1 MVA and above.
TSE - TS 2741 - DETECTION OF COPPER CORROSION FROM PETROLEUM PRODUCTS BY THE Organization: TSE
Date: 1977-04-28
Description: This test method covers the detection of the corrosiveness to copper of aviation gasoline, aviation turbine fuel, automotive gasoline, natural gasoline or other hydro carbons havinga reid vapor pressure no greater than 124 kPa, daners (stoddard) solvent kerosine diesel fuel, distillate fuel, distillate fuel oil, lubricating oil, and..
ETSI - TR 102 532 - ENVIRONMENTAL ENGINEERING (EE); THE USE OF ALTERNATIVE ENERGY SOLUTIONS IN TELECOMMUNICATION INSTALLATIONS - V1.2.1 Organization: ETSI
Date: 2012-11-01
Description: Such alternative energy sources are: • fuel cells; • photovoltaic generators; • wind turbine generators; • micro hydro generators; • stirling machine; • alternative cooling sources, e.g. geo-cooling, fresh air cooling (or free cooling), absorption machines.
AWS D14.6/D14.6M - SPECIFICATION FOR WELDING OF ROTATING ELEMENTS OF EQUIPMENT - 4TH EDITION Organization: AWS
Date: 2012-01-01
Description: Equipment types covered by this specification include, but are not limited to: crushers, fans, impellers, centrifugal impellers, kilns, pulpers, gears, sheaves, drive trains, crankshafts, flywheels, power transmission shafts, air moving devices, blowers, and rotating elements of hydro electric generating equipment. The intent of this specification is not to include steam or combustion turbine rotors, blading, or camshafts.
SNZ NZS 7901 - ELECTRICITY AND GAS INDUSTRIES – SAFETY MANAGEMENT SYSTEMS FOR PUBLIC SAFETY Organization: SNZ
Date: 2008-10-31
Description: Inclusions In addition to 1.21 the following are within the scope of this standard: (a) Control centres; (b) Gas measurement systems, where they are part of a gas distribution system as in 1.2.1(c); (c) Gas measurement systems where they are connected to but are not part of gas distribution assets as in 1.2.1(c); (d) Gas odorisation facilities; (e) Survey vehicles for gas systems; (f) Transportable network equipment in-service such as transportable transformers, or CNG tanks; (g) Watercourses that are used in the production of electricity where additional risks arise from the presence of generation assets or their operation; (h) Rapid rise in water level, high velocity flow and presence of turbulent or aerated water beyond any watercourse point of control (control gate, turbine) that may occur due to the process, for example, required compensation releases, rapid start-up or load ramping of hydro machines; (i) Damage to river banks and lake shorelines not covered by consent conditions or the Resource Management Act; and (ii) Flooding of dry river beds or other watercourses.

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