29.160.20 – Generators – PDF Standards Store ?u= Wed, 06 Nov 2024 01:42:18 +0000 en-US hourly 1 https://wordpress.org/?v=6.7.1 ?u=/wp-content/uploads/2024/11/cropped-icon-150x150.png 29.160.20 – Generators – PDF Standards Store ?u= 32 32 JIS B 0149:1990 ?u=/product/publishers/jis/jis-b-01491990/ Wed, 06 Nov 2024 01:42:18 +0000 Glossary of terms and definitions of engine - Driven generating sets
Published By Publication Date Number of Pages
JIS 1990-03-01 32
]]> Glossary of terms and definitions of engine - Driven generating sets
Published By Publication Date Number of Pages
JIS 1990-03-01 32
]]> ISO 8528-3:2020 ?u=/product/publishers/iso/iso-8528-32020/ Wed, 06 Nov 2024 00:12:42 +0000 Reciprocating internal combustion engine driven alternating current generating sets — Part 3: Alternating current generators for generating sets
Published By Publication Date Number of Pages
ISO 2020-10 26
]]> This document specifies the principal characteristics of alternating current (a.c.) generators under the control of their excitation control system when used for reciprocating internal combustion (RIC) engine driven generating set applications and supplements the requirements given in IEC 60034-1. It covers the use of such a.c. generators for land and marine applications, excluding generating sets used on aircraft or to propel land vehicles and locomotives.

NOTE For some specific applications (e.g. essential hospital supplies, high-rise buildings, operation parallel with the grid), supplementary requirements can be necessary. The provisions of this document can be regarded as the basis for establishing any supplementary requirements.

For a.c. generating sets driven by other reciprocating-type prime movers (e.g. steam engines) the provisions of this document can be used as basis for establishing these requirements.

]]> ISO 8528-3:2005 ?u=/product/publishers/iso/iso-8528-32005/ Wed, 06 Nov 2024 00:12:41 +0000 Reciprocating internal combustion engine driven alternating current generating sets — Part 3: Alternating current generators for generating sets
Published By Publication Date Number of Pages
ISO 2005-07 20
]]> ISO 8528-3:2005 specifies the principal characteristics of Alternating Current (a.c.) generators under the control of their voltage regulators when used in generating set applications. It supplements the requirements of IEC 60034-1.

ISO 8528-3:2005 applies to a.c. generators used in a.c. generating sets driven by reciprocating internal combustion (RIC) engines for land and marine use, excluding generating sets used on aircraft or to propel land vehicles and locomotives.

For some specific applications (e.g. essential hospital supplies, high-rise buildings) supplementary requirements may be necessary. The provisions of ISO 8528-3:2005 should be regarded as the basis for establishing any supplementary requirements.

For a.c. generating sets driven by other reciprocating-type prime movers (e.g. steam engines), the provisions of ISO 8528-3:2005 should be used as a basis for establishing these requirements.

]]> IEC 61116:1992 ?u=/product/publishers/iec/iec-611161992/ Tue, 05 Nov 2024 19:15:06 +0000 Electromechanical equipment guide for small hydroelectric installations
Published By Publication Date Number of Pages
IEC 1992-10-28 114
]]> Provides the future purchaser with information allowing him to prepare the required documents, from the call for tenders up to acceptance tests and operation of electromechanical equipment. Applies to installations having outputs of less than 5 MW and turbines with diameters less than 3 m.

]]> IEC 60034-33:2022 ?u=/product/publishers/iec/iec-60034-332022/ Tue, 05 Nov 2024 18:33:05 +0000 Rotating electrical machines - Part 33: Synchronous hydrogenerators including motor-generators - Specific requirements
Published By Publication Date Number of Pages
IEC 2022-01-28 112
]]> IEC 60034-33:2022 applies to three-phase salient-pole synchronous generators and synchronous motor-generators for hydraulic turbine and pump-turbine applications, that have rated frequency of 50 Hz or 60 Hz, rated output of 10 MVA and above, pole pair number 3 and above, and rated voltage of 6 kV and above. This document supplements basic requirements for rotating machines given in IEC 60034-1.

]]> CAN/CSA C679-02 (R2007):2002 Edition ?u=/product/publishers/csa/can-csa-c679-02-r2007/ Tue, 05 Nov 2024 14:14:46 +0000 Installation and Maintenance of Farm Standby Electric Power (Including update no. up to 1:2003)
Published By Publication Date Number of Pages
CSA 2002-06-18 30
]]> 1. Scope

1.1
This Standard provides information to assist installers, maintenance personnel, operators, designers, and others in the proper installation, operation, and maintenance of farm standby electrical systems.

1.2
This Standard covers both engine-driven and tractor-driven generators for farm standby electrical power.

1.3
The values given in SI (metric) units are the standard. The values given in parentheses are for information only.

]]> BS EN 50549-2:2019+A1:2023 ?u=/product/publishers/bsi/bs-en-50549-22019a12023/ Sun, 20 Oct 2024 08:46:24 +0000 Requirements for generating plants to be connected in parallel with distribution networks - Connection to a MV distribution network. Generating plants up to and including Type B
Published By Publication Date Number of Pages
BSI 2023 84
]]> PDF Catalog
PDF Pages PDF Title
2 undefined
9 1 Scope
10 2 Normative references
3 Terms and definitions
3.1 General
12 3.2 Plant, module and unit
14 3.3 Power
15 3.4 Voltage
17 3.5 Circuit theory
19 3.6 Protection
23 3.7 Control
25 4 Requirements on generating plants
4.1 General
26 4.2 Connection scheme
4.3 Choice of switchgear
4.3.1 General
4.3.2 Interface switch
27 4.4 Normal operating range
4.4.1 General
4.4.2 Operating frequency range
4.4.3 Minimal requirement for active power delivery at underfrequency
28 4.4.4 Continuous operating voltage range
4.5 Immunity to disturbances
4.5.1 General
29 4.5.2 Rate of change of frequency (ROCOF) immunity
4.5.3 Under-voltage ride through (UVRT)
4.5.3.1 General
30 4.5.3.2 Generating plant with non-synchronous generating technology
31 4.5.3.3 Generating plant with synchronous generating technology
4.5.4 Over-voltage ride through (OVRT)
32 4.6 Active response to frequency deviation
4.6.1 Power response to overfrequency
35 4.6.2 Power response to underfrequency
38 4.7 Power response to voltage changes
4.7.1 General
4.7.2 Voltage support by reactive power
4.7.2.1 General
4.7.2.2 Capabilities
40 4.7.2.3 Control modes
43 4.7.3 Voltage related active power reduction
4.7.4 Short circuit current requirements on generating plants
4.7.4.1 General
44 4.7.4.2 Generating plant with non-synchronous generating technology
48 4.7.4.3 Generating plant with synchronous generating technology – Synchronous generator based units
4.8 EMC and power quality
50 4.9 Interface protection
4.9.1 General
51 4.9.2 Voltage transformer
4.9.3 Requirements on voltage and frequency protection
4.9.3.1 General
52 4.9.3.2 Undervoltage protection [27]
4.9.3.3 Overvoltage protection [59]
53 4.9.3.4 Overvoltage 10 min mean protection
4.9.3.5 Underfrequency protection [81 < ]
4.9.3.6 Overfrequency protection [81 > ]
54 4.9.3.7 Positive sequence undervoltage protection [27D]
4.9.3.8 Negative sequence overvoltage protection [47]
4.9.3.9 Zero sequence overvoltage protection [59N]
4.9.4 Means to detect island situation
4.9.4.1 General
55 4.9.4.2 Active methods tested with a resonant circuit
4.9.4.3 Switch to narrow frequency band (see Annex E and Annex F)
4.9.5 Digital input to the interface protection
4.10 Connection and starting to generate electrical power
4.10.1 General
56 4.10.2 Automatic reconnection after tripping
4.10.3 Starting to generate electrical power
4.10.4 Synchronization
57 4.11 Ceasing and reduction of active power on set point
4.11.1 Ceasing active power
4.11.2 Reduction of active power on set point
4.12 Remote information exchange
58 Annex A (informative) Interconnection guidance
A.1 General
A.2 Network integration
59 A.3 Clusters of single-phase generating units
60 Annex B (informative)Remote information exchange
64 Annex C (informative) Parameter Table
69 Annex D (informative)List of national requirements applicable for generating plants
71 Annex E (informative)Loss of Mains and overall power system security
72 Annex F (informative)Examples of protection strategies
F.1 Introduction
F.1.1 General
F.1.2 Generalities
F.1.3 Detection of unwanted islands
73 F.1.4 Problems with uncontrolled islanding in MV networks
F.1.4.1 Safety
F.1.4.2 Grid parameters
F.1.4.3 Reclosing operations
F.1.4.4 Protection of islands against overcurrents
F.1.4.5 Protection against phase to earth faults
74 F.2 Example strategy 1
77 F.3 Example strategy 2
79 Annex G (normative)Abbreviations
80 Annex H (informative)Relationship between this European standard and the COMMISSION REGULATION (EU) 2016/631
]]> BS EN 50549-1:2019+A1:2023 ?u=/product/publishers/bsi/bs-en-50549-12019a12023/ Sun, 20 Oct 2024 08:46:23 +0000 Requirements for generating plants to be connected in parallel with distribution networks - Connection to a LV distribution network. Generating plants up to and including Type B
Published By Publication Date Number of Pages
BSI 2023 74
]]> PDF Catalog
PDF Pages PDF Title
2 undefined
10 1 Scope
11 2 Normative references
3 Terms and definitions
3.1 General
13 3.2 Plant, module and unit
16 3.3 Power
17 3.4 Voltage
18 3.5 Circuit theory
20 3.6 Protection
24 3.7 Control
25 4 Requirements on generating plants
4.1 General
26 4.2 Connection scheme
4.3 Choice of switchgear
4.3.1 General
4.3.2 Interface switch
27 4.4 Normal operating range
4.4.1 General
4.4.2 Operating frequency range
28 4.4.3 Minimal requirement for active power delivery at underfrequency
29 4.4.4 Continuous operating voltage range
4.5 Immunity to disturbances
4.5.1 General
4.5.2 Rate of change of frequency (ROCOF) immunity
30 4.5.3 Under-voltage ride through (UVRT)
4.5.3.1 General
4.5.3.2 Generating plant with non-synchronous generating technology
31 4.5.3.3 Generating plant with synchronous generating technology
4.5.4 Over-voltage ride through (OVRT)
32 4.6 Active response to frequency deviation
4.6.1 Power response to overfrequency
35 4.6.2 Power response to underfrequency
38 4.7 Power response to voltage changes
4.7.1 General
4.7.2 Voltage support by reactive power
4.7.2.1 General
4.7.2.2 Capabilities
40 4.7.2.3 Control modes
43 4.7.3 Voltage related active power reduction
4.7.4 Short circuit current requirements on generating plants
4.7.4.1 General
4.7.4.2 Generating plant with non-synchronous generating technology
44 4.7.4.3 Generating plant with synchronous generating technology – Synchronous generator based units
4.8 EMC and power quality
45 4.9 Interface protection
4.9.1 General
46 4.9.2 Void
47 4.9.3 Requirements on voltage and frequency protection
4.9.3.1 General
4.9.3.2 Undervoltage protection [27]
48 4.9.3.3 Overvoltage protection [59]
4.9.3.4 Overvoltage 10 min mean protection
4.9.3.5 Underfrequency protection [81 < ]
49 4.9.3.6 Overfrequency protection [81 > ]
4.9.4 Means to detect island situation
4.9.4.1 General
4.9.4.2 Active methods tested with a resonant circuit
4.9.4.3 Switch to narrow frequency band (see Annex E and Annex F)
50 4.9.5 Digital input to the interface protection
4.10 Connection and starting to generate electrical power
4.10.1 General
4.10.2 Automatic reconnection after tripping
4.10.3 Starting to generate electrical power
51 4.10.4 Synchronization
4.11 Ceasing and reduction of active power on set point
4.11.1 Ceasing active power
4.11.2 Reduction of active power on set point
4.12 Remote information exchange
52 4.13 Requirements regarding single fault tolerance of interface protection system and interface switch
53 Annex A (informative) Interconnection guidance
A.1 General
A.2 Network integration
54 A.3 Clusters of single-phase generating units
55 Annex B (informative)Void
56 Annex C (informative) Parameter Table
61 Annex D (informative)List of national requirements applicable for generating plants
63 Annex E (informative)Loss of Mains and overall power system security
64 Annex F (informative)Examples of protection strategies
F.1 Introduction
F.1.1 General
F.1.2 Generalities
F.1.3 Detection of unwanted islands
65 F.1.4 Problems with uncontrolled islanding in MV networks
F.1.4.1 Safety
F.1.4.2 Grid parameters
F.1.4.3 Reclosing operations
F.1.4.4 Protection of islands against overcurrents
F.1.4.5 Protection against phase to earth faults
66 F.2 Example strategy 1
69 F.3 Example strategy 2
71 Annex G (normative)Abbreviations
72 Annex H (informative)Relationship between this European standard and the COMMISSION REGULATION (EU) 2016/631
]]> BS EN 50549-10:2022 ?u=/product/publishers/bsi/bs-en-50549-102022/ Sun, 20 Oct 2024 06:08:01 +0000 Requirements for generating plants to be connected in parallel with distribution networks - Tests for conformity assessment of generating units
Published By Publication Date Number of Pages
BSI 2022 172
]]> The purpose of this document is to provide technical guidance for tests on generating units and interface protection to evaluate their electrical characteristics. NOTE 1 Mechanical issues are taken into account as far as they influence the electrical characteristics. The evaluation results are intended to be used to demonstrate conformity of generating units to technical requirements for grid connection. In this context the evaluation results can also be used as part of a certification programme. NOTE 2 Besides the type test results of the generating unit all additional elements for connection to the grid (e.g. transformer, cabling, multiple units) are considered in the evaluation of the final installation of a generating plant. The requirements to be evaluated are covered in the following standardization documents: – EN 50549 1:2019: Requirements for generating plants to be connected in parallel with distribution networks – Part 1: connection to a LV distribution network – Generating plants up to and including Type B – EN 50549 2:2019: Requirements for generating plants to be connected in parallel with distribution networks – Part 2: Connection to a MV distribution network – Generating plants up to and including Type B If grid connection requirements are dealt with in other documents or for other generating module types, where no specific testing procedure is provided, testing methods of this document can be used if applicable. This document provides evaluation criteria for the conformity assessment of generating units with respect to the abovementioned standardization documents, based on type testing. However, some requirements are applicable on the generating plant level. The assessment of the conformity to these plant requirements are out of the scope of this document. Nevertheless, this document may be used to show the capabilities of a generating unit to be used in a plant. As a consequence, it is possible that the conformity assessment of a generating unit does not cover all aspects of the above-mentioned standardization documents, typically when a requirement is evaluated on a plant level. Therefore, the conformity assessment report indicates clearly which clauses of this document are covered and which clauses are not covered. This document recognizes the existence of specific technical test requirements within several member states that must be complied with.

PDF Catalog

PDF Pages PDF Title
2 undefined
155 Annex A (normative) Fault ride through test setup
A.1 Example UVRT test setup
A.2 Example OVRT test setup
156 A.3 AC Grid simulator converter system
159 Annex B (normative)Template for statements of conformity and parameters
B.1 General
B.2 Templates for statements of conformity
168 Annex C (informative)Table 8 of EN 61000413:20023 and Table 26 of EN IEC 60255181:2019
C.1 Table 26 of EN IEC 60255181:2019
169 C.2 Table 8 of EN 61000413:20023
]]> BSI 22/30432997 DC 2022 ?u=/product/publishers/bsi/bsi-22-30432997-dc-2022/ Sun, 20 Oct 2024 04:15:28 +0000 BS EN 63132-5 Ed.1.0. Guide for installation procedures and tolerances of hydroelectric machines - Part 5. Bulb turbines and generators
Published By Publication Date Number of Pages
BSI 2022 38
]]> BS EN 63132-5 Ed.1.0. Guide for installation procedures and tolerances of hydroelectric machines - Part 5. Bulb turbines and generators
Published By Publication Date Number of Pages
BSI 2022 38
]]>