Dynamiczna obciążalność toru prądowego w systemie energetycznym

• Autorzy: Mosiński F.

Warianty tytułu

EN

Dynamie rating ofthe current circuit in power system

• Języki publikacji: PL

Abstrakty

PL

Przedstawiono założenia dynamicznego szacowania obciążalności wybranych elementów toru prądowego w systemie elektroenergetycznym.

EN

The paper presents assumptions for estimation of rating of selected parts of current circuit in power system.

Słowa kluczowe

PL

dynamiczna obciążalność; tor prądowy; system energetyczny

EN

dynamic rating; current circuit; methods of estimation; estimation of rating

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Wiadomości Elektrotechniczne
• Rocznik: 2007
• Tom: R. 75, nr 7
• Strony: 25--28
• Opis fizyczny: Bibliogr. 16 poz., tab., wykr.

Twórcy

autor

Mosiński F.

• Instytut Elektroenergetyki Politechniki Łódzkiej

Bibliografia

• [1] Douglass D.A., Edrjs A.-A.: Real-time monitoring and dynamic thermal rating of power transmission circuits. IEEE Trans. on Power Delivery 1996 nr 3
• [2] Lawry D.C., Daconti J.R.: Overhead Line Thermal Rating Calculation Based on Conductor ReplicaMethod http://www.shawgrp.com/PTI/consulting/transmission/images/IEEE%20T D%20Dallas%20Paper%20Final.pdf
• [3] IEEE Std 738-1993, IEEE Standard for Calculating the Current-Temperature Relationship of Bare Overhead Conductors. New York 1993
• [4] Kingsmill A., Jones S., Zhu J.G.: Possible uses of online condition monitoring for real-time rating of substationequipment, http://www.itee.uq.edu.au/~aupec/aupec03/papers/ 152%20Kingsmill%20full%20paper.pdf
• [5] VI.C Circuit Breakers. Guide for determination of circuit breaker load current capability ratings. Pennsylvania-New Jersey-Maryland Interconnection Planning and Engineering Committee, Transmission and Substation Design Subcommittee, Originally Issued: 6/99 http://www.maacrc.org/reference/PJM%20Ratings% 20Guides/20011108_ circuit_breakers.pdf
• [6] IEEE Std C57.91-1995 IEEE Guide for Loading Mineral-Oil-Immersed Transformers. June 14, 1995
• [7] 1538-2000 IEEE Guide for Determination of Maximum Winding Temperature Rise in Liquid Filled Transformers
• [8] IEEE (1994) Standard 835. IEEE Standard – Power Cable Ampacity Tables, IEEE Press
• [9] C37.04A-2003 IEEE Standard Rating Structure for AC High-Voltage Circuit Breakers Rated on a Symmetrical Current Basis: Amendement 1 Capacitance Current Switching
• [10] C37.74-2003 IEEE Standard Requirements for Subsurface, Vault, and Padmounted Load-Interrupter Switchgear and Fused Load-Interrupter Switchgear for Alternating Current Systems up to 38 kV
• [11] C37.14-2002 IEEE Standard for Low-Voltage DC Power Circuit Breakers Used in Enclosures
• [12] C37.32-2002 American National Standard for Switchgear – High Voltage Air Switches, Bus Supports, and Switch Accessories – Schedules of Preferred Ratings Manufacturing Specifications, and Application Guide
• [13] C37.06.1-2000 American National Standard for Switchgear – AC High Voltage Circuit Breakers Rated on a Symmetrical Current Basis – Preferred Ratings and Related Required Capabilities
• [14] C37.10.1-2000 IEEE Guide for the Selection of Monitoring for Circuit Breakers
• [15] C57.13.5-2003 IEEE Trial-Use Standard of Performance and Test Requirements for Instrument Transformers of a Nominal System Voltage of 115 kV and Above
• [16] Mosiński F., Bocheński B., Piotrowski T.: Power transformer rating – an example of a numerical programme application. Proc. of the Int. Conference of Power Transformer TRANSFORMER’05, Pieczyska 2005