TY  - JOUR
EP  - 2057
SN  - 15325008
PB  - Taylor and Francis Ltd.
N1  - cited By 0
TI  - Servomotor Pitching Control Method for H-Type Darrieus Turbine
SP  - 2043
AV  - none
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85167822546&doi=10.1080%2f15325008.2023.2242850&partnerID=40&md5=0f047a305711bc8c3f3c81d8a59c8941
A1  - Kavade, R.K.
A1  - Ghanegaonkar, P.M.
A1  - Malwe, P.D.
A1  - Kothare, C.
A1  - Darade, P.
A1  - Chendke, G.M.
A1  - Panchal, H.
A1  - Meena, R.S.
A1  - Veza, I.
JF  - Electric Power Components and Systems
VL  - 51
Y1  - 2023///
N2  - This research article discusses the active pitching technique for the H-Type Darrieus turbine and its importance for the turbineâ??s self-starting and enhanced power coefficient. The pitch of the turbine blades is changed at various points while the turbine is whirling using the servomotor pitching control system. The performance of the turbine is enhanced by the present blade pitching method. The current analytical analysis made use of the DMST (Double Multiple Stream Tube) model. Parametric study is done to create a turbine design suitable for pre-fabrication. Currently, a turbine with a servomotor is being employed in the research. The paperâ??s conclusion is that the current pitching schedule can increase initial torque to initiate starting of the turbine and improve efficiency of turbine in terms of power coefficient up to 45 for operating tip speed ratio, 0 = 2.5 at wind velocity of 10 m/s. © 2023 Taylor & Francis Group, LLC.
IS  - 17
KW  - Servomotors; Turbine components; Turbomachine blades
KW  -  Control mechanism; Darrieus turbine; Double multiple stream tube model; Efficiency of turbine; Multiple streams; Power coefficients; Servomotor pitching control mechanism; Speed range; Speed range of turbine; Stream tube models
KW  -  Efficiency
ID  - scholars19172
ER  -