Person:
İNAN, AHMET TALAT

Profile Picture

Email Address

Birth Date

Research Projects

Organizational Units

OrgUnit Logo
Organizational Unit

Job Title

Last Name

İNAN

First Name

AHMET TALAT

Name

Filters

2018 - 201912020 - 20223
Reset filters

Settings

Author: İNAN, AHMET TALAT × Subject: Engineering, Computing & Technology (ENG) ×

Search Results

Now showing 1 - 4 of 4
  • No Thumbnail Available
    PublicationMetadata only
    Fabrication and characterization of hazelnut shellpowder with reinforced polymer compositenanofibers
    (2018-09-14) KARTAL, İLYAS; OKTAR, FAİK NÜZHET; EKREN, NAZMİ; İNAN, AHMET TALAT; GÜNDÜZ, OĞUZHAN; CESUR, SÜMEYYE; Şengör İ., Cesur S., Kartal İ., Oktar F. N., Ekren N., İnan A. T., Gündüz O.
  • Thumbnail Image
    PublicationOpen Access
    Experimental comparison and CFD analysis of conventional shell and tube heat exchanger with new design geometry at different baffle intervals
    (2022-07-01) İNAN, AHMET TALAT; İNAN A. T. , KÖTEN H., Kartal M. A.
    Basically, in the working principle, the transition from high temperature to low temperature is achieved, while the temperature value of the one with the lower temperature rises, this process can continue until the temperature value of the other decreases and reaches equilibrium. Therefore, heat exchangers are highly preferred in the industry where heat transfer is possible, in mass production facilities where nonstop production takes place such as the pharmaceutical and paper industry, and in sectors where energy efficiency is of utmost importance. In the analyses, it is aimed to investigate the changes in the fluid behavior of the conventional one-piece type baffle plate shell and tube heat exchanger at different baffle plate intervals by keeping it constant at different flow rates. Here, water was used as the working fluid to examine the changes in fluid behavior, the direction in which the heat transfer rate per pressure drop changes, the pressure drop and the effects on the body side heat transfer coefficient. As a result, it has been determined that the distance between the baffle plates used in the conventional one-piece type shell and tube heat exchanger varies and the values compared at different flow ranges differ.
  • No Thumbnail Available
    PublicationMetadata only
    Experimental comparison and CFD analysis of conventional shell and tube heat exchanger with new design geometry at different baffle intervals
    (2022-07-01) İNAN, AHMET TALAT; İNAN A. T. , KÖTEN H., Kartal M. A.
    Basically, in the working principle, the transition from high temperature to low temperature is achieved, while the temperature value of the one with the lower temperature rises, this process can continue until the temperature value of the other decreases and reaches equilibrium. Therefore, heat exchangers are highly preferred in the industry where heat transfer is possible, in mass production facilities where nonstop production takes place such as the pharmaceutical and paper industry, and in sectors where energy efficiency is of utmost importance. In the analyses, it is aimed to investigate the changes in the fluid behavior of the conventional one-piece type baffle plate shell and tube heat exchanger at different baffle plate intervals by keeping it constant at different flow rates. Here, water was used as the working fluid to examine the changes in fluid behavior, the direction in which the heat transfer rate per pressure drop changes, the pressure drop and the effects on the body side heat transfer coefficient. As a result, it has been determined that the distance between the baffle plates used in the conventional one-piece type shell and tube heat exchanger varies and the values compared at different flow ranges differ.
  • Thumbnail Image
    PublicationOpen Access
    CFD analysis and comparison of conventional type and perforated plate type shell tube heat exchangers
    (2022-04-01) İNAN, AHMET TALAT; İnan A. T.
    AbstractThe baffle plate is the most important elements affecting not only the thermal efficiency but also the hydraulic performance of shell-tube heat exchangers that can be designed in different types today and can be put into the production phase. Different designs of baffle plates are closely related to thermal performance with pressure drop as well. In this investigation, the design geometry of the shell-tube type was carried out by means of the ANSYS Fluent program.In the analyses, it is purposed to examine the consequences on the heat transfer rate per drop of pressure and not only the pressure’s drop but also the coefficient parameter of heat transfer of the exchangers in which traditional one-piece type baffle plate and perforated type baffle plate are used where the shell side. Here, water is used as the working fluid; it was examined as 1.2, 1.5, 1.8 and 2.1kg/h at four varied mass flow rates (m). As a result, the values compared to the traditional one-piece baffle plate and the perforated type baffle plate. It has been monitored that the heat transfer rates per drop of pressure vary