@Article{hmt.17.14,
AUTHOR = {Jingquan Zhang, Kun Zhang},
TITLE = {NUMERICAL INVESTIGATION OF FLOW AND HEAT TRANSFER IN  CORRUGATED PARALLEL CHANNEL WITH SINUSOIDAL WAVE  SURFACE},
JOURNAL = {Frontiers in Heat and Mass Transfer},
VOLUME = {17},
YEAR = {2021},
NUMBER = {1},
PAGES = {1--6},
URL = {http://www.techscience.com/fhmt/v17n1/52502},
ISSN = {2151-8629},
ABSTRACT = {Detailed numerical analysis is presented for flow and heat transfer in sinusoidal-corrugated parallel channel with six discrete heat sources placed under 
the bottom surface. Three dimensional numerical model are applied for simulating the flow and heat transfer process and the Colburn j factor is applied 
to evaluate the overall performance of the corrugated liquid cooled channel. The results show that the maximum temperature in the middle section 
decreases and the pressure loss increases as the wavelength of sinusoidal surface on the bottom decreases, while the increasing wave amplitude of 
corrugated surface can enhance the heat transfer rate in the ranges of inlet velocity from 1.5m/s to 3.5m/s. In addition, the corrugated channel have 
helped to improve heat transfer rate when it is compared with the traditional parallel channel.},
DOI = {10.5098/hmt.17.14}
}