The flow-pattern in SSHEs is typically the result of axial flow and rotation of the scrapers. Some of the crucial parameters that define this flow are axial driving force, viscosity, length of the equ
2020/07/18 Ftherm_Votator 107
A simple mathematical model of fluid flow in a common type of scraped surface heat exchanger in which the gaps between the blades and the device walls are narrow, so that a lubrication-theory descript
2020/07/18 Ftherm_Votator 102
The present study analyses the performance of a scraped surface heat exchanger (SSHE) equipped with a new arrangement of blades to achieve higher thermal efficiencies than the conventional SSHE. This
2020/07/18 Ftherm_Votator 104
Abstract: Scraped-surface heat exchangers (SSHEs) are widely used in industries that manufacture and thermally process fluids; in particular, the food industry makes great use of such devices. Current
2020/07/18 Ftherm_Votator 105
A numerical investigation of a scraped surface heat exchanger (SSHE) was undertaken using the commercial CFD code FLUENT to characterize the shear rates for Newtonian and Non-Newtonian fluids. Simulat
2020/07/18 Ftherm_Votator 104
The flow between two concentric cylinders which is termed as Taylor–Couette flow has been studied in scraped surface heat exchanger with and without blades. Shear rate in annular flow with and without
2020/07/18 Ftherm_Votator 103
Scraped Surface Heat Exchangers (Contherm SSHE model 6 × 3) are widely used industrially. In this kind of heat exchanger, the inlet and the outlet are difficult to clean due to their particular geomet
2020/07/18 Ftherm_Votator 102
This paper presents the mathematical modeling of the ice crystallization process occurring during the freezing of sorbet in a continuous scraped surface heat exchanger (SSHE). Two different modeling a
2020/07/18 Ftherm_Votator 100
