Araştırma Makalesi
BibTex RIS Kaynak Göster

Analysis of the Mechanical Performance Estimation of Electric Motors Used in the Drive of Deep Well Pumps

Yıl 2020, Cilt: 1 Sayı: 1, 85 - 90, 30.06.2020

Abdullah Beyaz Mustafa Vatandaş

Öz

V Vertical hollow shaft (VHS) deep well pumps are one of the pump types commonly used in agricultural irrigation. 3-phase asynchronous electric motors are used to drive these types of  pumps. In this study, the main goal is to analyze the manufacturer’s motor catalog data with Kloss formula and estimate the instantaneous rotor torque of these motors with the least error. For  this aim, Nominal speed, breakdown torque and rotor speed at breakdown torque used in the study as the manufacturer's data. By this way, it became possible to estimate the mechanical  performance of today's manufactured motors with the least possible measurement and error rate. Also, the results showed that the torque values which were calculated by using the Kloss formula given in the literature is giving us a chance a chance to easly make inferences from the manufacturer data efficiently

Anahtar Kelimeler

Torque estimation of induction motors deep well pumps manufacturers’ technical data

Kaynakça

  • Anonymous (2019). Vertical hollow shaft (VHS) electric motors. http://ime.eu (08.03.2019).
  • Boduroğlu T (1988). Electrical Machinery Courses (2nd Edition). Istanbul, Volume II, Beta Press Release Distribution;1988.
  • Buksnaitis J (2011). Analytical Determination of Mechanical Characteristics of Asynchronous Motors by Varying the Electric Current Frequency. Electronics& Electrical Engineering, 6 (112): 3-6.
  • Çolak İ (2017). Electrical Machines-2. Seckin Publishing, 2017; 352, Ankara.
  • Fitzgerald A E, Kingsley C, and Umans SD (2014). Electric Machines (Translation Editor: Sirri Sunay Gurleyik). Ankara, Palme Publishing, 2014; 698, Ankara
  • Gartner J, Halamka Z, Pavelka J (2001). The Speed Control of the Induction Motors by the Change of Supply Voltage. Silnoprouda Electro Technika A Elektroenergetika, 41-44.
  • Kodkin VL, Anikin AS, Shmarin YA (2014). Effective Frequency Control for Induction Electric Drives under Overloading. Russian Electrical Engineering, 85(10): 641-644.
  • Kostic MM (2010). Analysis of Induction Motor Efficiency Class Change at Partial Load. Electrical Engineering, 23 (3): 333-344.
  • Kumar A and Kumar Godara, A (2017). Attitude of farmers’ towards Photovoltaic Water Pumping System in Haryana. Agricultural Science Digest, 37(2) 2017: 127-131
  • Patel Vedant C and Vekariya PB (2018). Performance evaluation of pressure head loads and pumping efficiency on electrical pump sets. Indian Journal of Agricaltural Research, 52(4) 2018: 374-379.
  • Pejovski D, Velkovski B (2016). Calculation of Induction Motor Starting Parameters Using MATLAB. INFOTECH-JAHORINA, 879-884.
  • Sieklucki G (2018). An Investigation in to the Induction Motor of Tesla Model S Vehicle. Proceedings of the 2018 International Symposium of Electrical Machines (SME), Poland.
  • Vatandaş M (1995). Investigation of Loading Characteristics in Electric Motor- Machine Coupling. 16th National Congress of Agricultural Mechanization Book of the Proceedings: 183-191, Bursa.

Yıl 2020, Cilt: 1 Sayı: 1, 85 - 90, 30.06.2020

Abdullah Beyaz Mustafa Vatandaş

Öz

Kaynakça

  • Anonymous (2019). Vertical hollow shaft (VHS) electric motors. http://ime.eu (08.03.2019).
  • Boduroğlu T (1988). Electrical Machinery Courses (2nd Edition). Istanbul, Volume II, Beta Press Release Distribution;1988.
  • Buksnaitis J (2011). Analytical Determination of Mechanical Characteristics of Asynchronous Motors by Varying the Electric Current Frequency. Electronics& Electrical Engineering, 6 (112): 3-6.
  • Çolak İ (2017). Electrical Machines-2. Seckin Publishing, 2017; 352, Ankara.
  • Fitzgerald A E, Kingsley C, and Umans SD (2014). Electric Machines (Translation Editor: Sirri Sunay Gurleyik). Ankara, Palme Publishing, 2014; 698, Ankara
  • Gartner J, Halamka Z, Pavelka J (2001). The Speed Control of the Induction Motors by the Change of Supply Voltage. Silnoprouda Electro Technika A Elektroenergetika, 41-44.
  • Kodkin VL, Anikin AS, Shmarin YA (2014). Effective Frequency Control for Induction Electric Drives under Overloading. Russian Electrical Engineering, 85(10): 641-644.
  • Kostic MM (2010). Analysis of Induction Motor Efficiency Class Change at Partial Load. Electrical Engineering, 23 (3): 333-344.
  • Kumar A and Kumar Godara, A (2017). Attitude of farmers’ towards Photovoltaic Water Pumping System in Haryana. Agricultural Science Digest, 37(2) 2017: 127-131
  • Patel Vedant C and Vekariya PB (2018). Performance evaluation of pressure head loads and pumping efficiency on electrical pump sets. Indian Journal of Agricaltural Research, 52(4) 2018: 374-379.
  • Pejovski D, Velkovski B (2016). Calculation of Induction Motor Starting Parameters Using MATLAB. INFOTECH-JAHORINA, 879-884.
  • Sieklucki G (2018). An Investigation in to the Induction Motor of Tesla Model S Vehicle. Proceedings of the 2018 International Symposium of Electrical Machines (SME), Poland.
  • Vatandaş M (1995). Investigation of Loading Characteristics in Electric Motor- Machine Coupling. 16th National Congress of Agricultural Mechanization Book of the Proceedings: 183-191, Bursa.
Toplam 13 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Ziraat Mühendisliği
Bölüm Araştırma Makaleleri
Yazarlar

Abdullah Beyaz 0000-0002-7329-1318

Mustafa Vatandaş 0000-0003-3235-042X

Yayımlanma Tarihi 30 Haziran 2020
Gönderilme Tarihi 8 Mart 2020
Kabul Tarihi 22 Nisan 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 1 Sayı: 1

Kaynak Göster

APA Beyaz, A., & Vatandaş, M. (2020). Analysis of the Mechanical Performance Estimation of Electric Motors Used in the Drive of Deep Well Pumps. Turkish Journal of Agricultural Engineering Research, 1(1), 85-90.

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