3th WCSET-2014 at Nepal
Keynote Session:
Title:
Advanced Thermal Energy Production, Exchange and
Transport Technologies with the aid of Biomass
Authors:
Shuichi TORII
Abstract: The
aim of the present study is to introduce the thermal
production from the biomass, the heat exchange of its
production to the working fluid, and higher effective
thermal fluid transport. It is found that (i) the
selfcombustion takes place less than 40% of the
compost’s moisture content and the high-temperature
combustion gas over 1100K is able to be produced under
the optimum air-fuel ratio, (ii) Overall heat transfer
coefficient for herringbone plate is higher than the
other of plate shapes and an amplification of frictional
pressure drop is substantially suppressed for the
separate herringbone plate, and (iii) enhancement of
convective heat transfer performance is caused by
suspending nanoparticles in pure working fluid.
Keywords: Biomass, Heat
Exchanger, Convective Heat Transfer, Nanofluid, Heat
Transfer Enhancement
Pages:
014-017