EXTENDING MOTOR LIFE WITH UPDATED THERMAL MODEL OVERLOAD PROTECTION

被引:0
|
作者
Ransom, Daniel L. [1 ]
Hamilton, Randy [1 ]
机构
[1] Basler Elect Co, Highland, IL 62249 USA
来源
2012 RECORD OF CONFERENCE PAPERS INDUSTRY APPLICATIONS SOCIETY 59TH ANNUAL IEEE PETROLEUM AND CHEMICAL INDUSTRY TECHNICAL CONFERENCE (PCIC) | 2012年
关键词
Motor protection; thermal model; RTD; emergency start; transducers;
D O I
暂无
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
Thermal issues shorten motor life. Modern motor relays must protect for these effects, which can occur for motors from small to large (50 HP and greater), and for all voltage operational levels. However, being too conservative on thermal limits decreases motor productivity. An ANSI/IEEE 49 thermal element creates a realistic thermal model of the motor because the element takes the load level and negative-sequence currents into account. The 49 thermal element is superior to older methods using inverse-time overcurrent elements (51). This paper discusses updates in the existing 49 thermal model implementation. Also discussed are resistance temperature detector (RTD) biasing, resistance temperature detector voting and the role of transducers in the modern motor relay.
引用
收藏
页数:7
相关论文
共 50 条
  • [1] Extending Motor Life With Updated Thermal Model Overload Protection
    Ransom, Daniel L.
    Hamilton, Randy
    IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS, 2013, 49 (06) : 2471 - 2477
  • [2] Extending Motor Life with Updated Thermal Model Overload Protection
    Ransom, Daniel L.
    Hamilton, Randy
    2011 IEEE INDUSTRY APPLICATIONS SOCIETY ANNUAL MEETING (IAS), 2011,
  • [3] MOTOR OVERLOAD PROTECTION FOR MOTOR ACTUATED VALVES
    RICHARDS, AW
    FORMICA, CD
    IEEE TRANSACTIONS ON POWER APPARATUS AND SYSTEMS, 1981, 100 (01): : 43 - 50
  • [4] Fundamentals of a motor thermal model and its applications in motor protection
    Venkataraman, B
    Godsey, B
    Premerlani, W
    Shulman, E
    Thakur, M
    Midence, R
    2005 58TH ANNUAL CONFERENCE FOR PROTECTIVE RELAY ENGINEERS, 2005, : 127 - 144
  • [5] REFINEMENTS IN AC MOTOR OVERLOAD PROTECTION
    SOUTER, JB
    ELECTRICAL REVIEW, 1974, 195 (02): : 50 - 53
  • [6] Fundamentals of a motor thermal model and its applications in motor protection
    Venkataraman, B
    Godsey, B
    Premerlani, W
    Shulman, E
    Thakur, M
    Midence, R
    CONFERENCE RECORD OF 2005 ANNUAL PULP AND PAPER INDUSTRY TECHNICAL CONFERENCE, 2005, : 11 - 28
  • [7] Thermal model of induction motor for relay protection
    Bulychev A.V.
    Erokhin E.Yu.
    Pozdeev N.D.
    Filichev O.A.
    Russian Electrical Engineering, 2011, 82 (3) : 144 - 148
  • [8] Adaptive transformer thermal overload protection
    Swift, GW
    Zocholl, SE
    Bajpai, M
    Burger, JF
    Castro, CH
    Chano, SR
    Cobelo, F
    de Sá, P
    Fennell, EC
    Gilbert, JG
    Grier, SE
    Haas, RW
    Hartmann, WG
    Hedding, RA
    Kerrigan, P
    Mazumdar, S
    Miller, DH
    Mysore, PG
    Nagpal, M
    Rebbapragada, RV
    Thaden, MV
    Uchiyama, JT
    Usman, SM
    Wardlow, JD
    Yalla, M
    IEEE TRANSACTIONS ON POWER DELIVERY, 2001, 16 (04) : 516 - 521
  • [9] Thermal overload protection of electric motor windings, (Zascita navitij elektromotorjev pred termicnimi preobremenitvami)
    ZONTAR B
    1971, 38 (8-10): : 237 - 244
  • [10] Motor overload protection becomes 'communications-capable'
    Babb, M
    CONTROL ENGINEERING, 1996, 43 (08) : 69 - &
12345