This study aims mainly to determine the temperature distribution
heat transfer enhancement under natural convection experimental,
from three surfaces with industrial roughness created by a special
machine (roughness surfaces) with triangular, trapezoidal, spherical
configuration compared to equivalent smooth surface.
With cross-sectional area.
سطح مخشن
سطح أملس
معامل انتقال الحرارة
Rough surfaces
Smooth surfaces
Enhanced heat transfer
Heat transfer coefficient
Convection heat transfer
Temperature distribution
التوزيع الحراري
التبدد الحراري
التحسن في انتقال الحرارة
انتقال الحرارة بالحمل الطبيعي
تحسين انتقال الحراراة
بروزات
مقاطع
heat dissipation
ribs
configurations
المزيد..
In this paper, an analytical and mathematical study of the PCM
wallboards was done by simulate its thermal behavior, depending on
governing heat transfer equations which describe the phase change
process of the PCM wallboard . A mathematical model
was done
and used to simulate the thermal behavior of several different
structures of the wall (single PCM wallboard, PCM wallboard +
thermal insulation layer, PCM wallboard + a concrete block).
Direct steam generation in parabolic trough collector (DSGPTC)
has had a great importance because of its thermoeconomic
advantages and many researches have be done in
this field. Due to that reason this paper studies the convection
heat transfer
from absorber tube of a PTC to all phases of
water (liquid water, wet steam and dry steam) along the
whole distance of fixed length of a DSG-PTC generates a high
temperature superheated steam (561 °C). All heat transfer
operations in PTC has been modelled and then the
convection' components which are; fluid temperature, tube
wall-fluid temperatures difference and heat transfer
coefficient have been analyzed in details at different
operation conditions such as inlet fluid pressure, direct solar
beam and mass flow.
The main purpose of this paper is to introduce a general approach to calculate the heating load of evaporators and condensers in refrigeration plants. This approach is based on both analytical-graphical and iteration methods. The general heat resista
nce has been calculated by easier and less complicated procedures.
Heat load in any heat exchanger is obtained using produced tables and graphs according to the exchanger type.
One popular heat transfer augmentation technique involves the use
of rough surfaces of different configurations. The rough surface
aims to promote surface turbulence that is intended mainly to
increase the heat transfer coefficient and surface are
a. It was
reported that non-flat surfaces have free convection coefficients
that arrive to 50% to 100% more than those of flat surfaces.
The goal of this study aims mainly to examine heat transfer
enhancement from a surface with same industrial roughness created
by a special tool (roughness surfaces) with different shapes under
convection heat transfer compared to equivalent smooth surfaces
without deformations.
The results show there is no need to apply the different roughness
configurations in two mutually perpendicular directions. It's enough
to cause it only in one plane. And we have got the same win in
surface area.
The results show also the rectangular profiles of roughness give the
best result.