Transformer and Reactor Procurement » książka
Transformer and Reactor Procurement
ISBN-13: 9783030804688 / Angielski / Twarda / 2022 / 400 str.
Transformer and Reactor Procurement
ISBN-13: 9783030804688 / Angielski / Twarda / 2022 / 400 str.
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1 - Overview of Transformer and Reactor Procurement Process
Overall description of power transformer and reactor procurement process, including differences for different users.
Sub-chapter on forecasting of future demand for transformers and reactors
Sub-chapter on spare transformers policy
Sub-chapter on tends in system technical requirements
2 - Identification of Transformer and Reactor Functional Requirements
Different applications – transmission, generation (centralised or distributed), others?
Description of methods used to identify main functional requirements for power transformers, esp. rated voltages/tap ranges, rated power and impedance. Also consider temperature rise limits, tank requirements / paint finish, terminals, etc.
Sub-chapter on whether tertiary winding or similar required.
Sub-chapter on “universal” spare transformers
3 - Technical Specifications
How to translate requirements into a specification. Specification contents, including different requirements for different applications.
Sub-chapter on maintenance requirements, esp. choice of components and materials, need for staff training.
4 - Supplier Qualification and Development
How to assess the capability of different transformer suppliers to meet user expectations and requirements. How to communicate expectations and requirements to manufacturers in advance. Also consider how to develop transformer manufacturer capabilities in case of new requirements.
5 - Tender Process and Evaluation
How to manage clarifications/deviations. How to assess credibility of tenders from different suppliers.
Sub-chapter (or appendix) with model schedules
6 - Losses and Efficiency
How to specify requirements for losses and efficiency. Loss capitalisation and penalties.
7 - Contract Review
Formation of project teams, allocation of roles and responsibilities. Planning of future activities: esp. approval of drawings and documents; progress inspections; etc.
8 - Design Review
How to ensure that electrical, and mechanical design, quality plan, test plan, and site work plan comply with all user expectations and requirements. Also consider delivery requirements (time planning).
9 - Progress Inspections
How to ensure that manufacturing processes comply with all user expectations and requirements, including delivery requirements (time schedule).
Sub-chapter on quality plan (or maybe include in design review)
Sub-chapter or sub-chapters on what to inspect, and how to inspect it
Sub-chapter on resolving problems
10 - Final Test
How to ensure final test complies with all user expectations and requirements. How to understand and evaluate results, including differences/deviations from expectations.
Sub-chapter on final test failures. To include methods for investigation and repair.
11 - Transport
Whole transport process from dismantling after test / preparation for transport to delivery to site. Use of shock recorders. Precautions for different transport modes.
Sub-chapter on INCOTERMS
Sub-chapter on transport incidents/damage. To include methods for investigation and repair
12 - Storage
Why transformers sometimes need to be put into storage. How the length of time in storage determines the preparation for storage
Sub-chapter on short-term storage, in the transport configuration
Sub-chapter on medium-term storage
Sub-chapter on long-term storage, fully or partly assembled
13 – Installation
Whole installation process from delivery to site to pre-commissioning. Consider various different “standard” options.
Sub-chapter on site assembly
14 - Pre-Commissioning
Standard pre-commissioning checks and tests.Sub-chapter on transformers with direct connection to GIS or cables, including special requirements for site testing
Sub-chapter on heavy duty site testing.
15 - Operation During the Warranty or Guarantee Period
Additional checks and monitoring during the warranty or guarantee period. Possible problems and how to resolve them.
Sub-chapter on failures during warranty period.
Study Committee A2 is responsible for all aspects of power transformers and reactors with CIGRE, throughout their life cycle from procurement to disposal. Study Committee A2 places a special emphasis on innovative solutions to problems facing both manufacturers and users. A power transformer is a non-mechanical apparatus used to change the voltage, but not the frequency, of an alternating current supply. Power transformers play an essential role in the generation, transmission, and distribution of electricity. A reactor is a non-mechanical apparatus of similar design and construction to a power transformer, used to control voltages or currents in parts of the electricity network.
He has been an active member of CIGRE for many years. He was a member of working groups A2.27 on condition monitoring facilities, A2/B4.28 on HVDC transformers, and A2.37 on transformer reliability. He was also regular member for Brazil on SC A2 between 2014 and 2020.
Tom Breckenridge was born in Greenock, Scotland, in 1955. He studied electrical and electronic engineering at the University of Glasgow between 1973 and 1977. He joined the South of Scotland Electricity Board in 1978, initially as an operational engineer within the distribution field. A move to transmission substation design followed in 1996, where he also assumed the role as principal transformer expert for Scottish Power responsible for specification purchasing and approval of all transformers. Leaving Scottish Power in 2006, he founded TB TCS Ltd through which he provides specialist services in the field of large power transformers on a global basis, primarily operating in the procurement area.
He is a registered European engineer, a fellow of the IET, a UK chartered engineer, and a distinguished member of CIGRE. He was convenor of CIGRE working group A2-36 on transformer procurement. Tom is chairman designate of British Standards PEL/14 committee for power transformers and a member of several IEC maintenance teams under IEC TC14 where he was also IEC convener for the latest version of IEC/IEEE standard 60076-16 for wind turbine transformers.Mike Lamb was born in the USA in 1966. He is currently manager of electric transmission operations engineering in the power delivery group at Dominion Energy in Richmond Virginia, USA. He joined Dominion Energy in 1988 and has held several engineering positions during his career with experience in electric substation and transmission line design and maintenance, distribution system planning and operations, and system operations contingency analysis and transmission open access. Prior to his current position, he was principal engineer in electric transmission operations engineering responsible for the technical oversight of the power transformer procurement process in support of all Dominion Energy’s business units. Mike now leads a team of specialized engineers responsible for major electric transmission equipment specifications; system analysis, technical investigations and root cause analyses, and providing analysis and guidance for emerging technological challenges.
He became a member of CIGRE in 2007. Mike was a member of CIGRE working group A2.36 on transformer procurement and secretary of CIGRE working group A2.48 on shunt reactors, and he is secretary of CIGRE working group A2.58 on installation and pre-commissioning. He has been an active member of CIGRE USNC and was a recipient in 2018 of the Attwood Associate Award.
Tara-Lee MacArthur studied electrical engineering at Queensland University of Technology from 2008 to 2011, graduating with a BEng. She works for an Australian energy utility as a substation design standards engineer and is noted for her work on power transformer specification and design and transformer life management. She is a member of the CIGRE Australia A2 mirror panel (since 2015) and director of the CIGRE Australia Board (since 2020). She has been an active member within CIGRE internationally as secretary of CIGRE Working Group A2.49 between 2016 and 2019 and has been chair of A2 AG.2 on tutorials since 2020. She is a registered professional engineer in Queensland, Australia.
Simon Ryder was born in England in 1973. He studied engineering science at St John’s College, Oxford University, between 1992 and 1996. He worked for GEC Alsthom and later Alstom, between 1997 and 2003, in transformer design, development, and eventually research. He is known for his work on thermal characteristics of transformers and frequency response analysis (FRA). He joined Doble in 2003, initially working mainly on transformer life management. Since 2009, he has worked mainly on transformer procurement, especially supplier qualification and development.
He is a senior member of IEEE-PES, a fellow of IET, and a chartered engineer. He was a member of CIGRE working groups A2.36 on transformer procurement, D1/A2.47 on advances in DGA interpretation, and A2.58 on transformer installation, pre-commissioning, and trial operation, and was convenor of CIGRE working group A2.48 on shunt reactors. He was chairman of CIGRE Committee A2 on power transformers and reactors between 2016 and 2020. He is editor-in-chief of this Green Book.
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