More than 40 years installing our units in universities and laboratories around the world with the illusion of the first day. On this occasion, we have traveled to Dubai-UAE for the setting-up of the Base Service Unit, TIUSB, and the Cross Flow Heat Exchanger, TICFB, at Higher Colleges of...
TICFB Cross Flow Heat Exchanger for TICB
혁신적인 시스템
Designed to study heat transfer between two fluids in cross flow configuration. Hot water flow coming from the base unit enters and leaves a radiator perpendicular to an air current, which is generated by a fan.
관련 뉴스
일반적인 설명
Designed to study heat transfer between two fluids in cross flow configuration. Hot water flow coming from the base unit enters and leaves a radiator perpendicular to an air current, which is generated by a fan.
연습 및 가이드
매뉴얼에 포함 된 가이드 실기 연습
- Introduction to the concept of psychometric properties.
- Effect of temperature differential on the heat transfer coefficient.
- Familiarization with cross flow heat exchanger.
- Overall energy balance in the heat exchanger and study of losses.
- Determination of the exchanger effectiveness (NTU method).
- Influence of air and water flow on the heat transfer. Reynolds number calculation.
비슷한 제품
9.7.- 열교환 기
TITCB
It has been designed to study the heat transfer between hot water flowing through an internal tube and cold water flowing through the annular area between the internal and the external tubes.
9.7.- 열교환 기
TIPLB
Plate Heat Exchanger for TICB
It has been designed to study the heat transfer between hot water and cold water flowing through alternate channels formed between parallel plates.
9.7.- 열교환 기
TICTB
Shell & Tube Heat Exchanger for TICB
It consists of a series of tubes inside the heat exchanger where hot water flows. The cooling water flows through the space between the inner tubes and the shell.
9.7.- 열교환 기
TIVEB
Jacketed Vessel Heat Exchanger for TICB
TIVEB. Jacketed Vessel Heat Exchanger for TICB: Allows the study of heat transfer between hot water flowing through a jacket and the cold water contained in a vessel.
9.7.- 열교환 기
TIVSB
Coil Vessel Heat Exchanger for TICB
Allows the study of heat transfer between hot water flowing through a coil and cold water contained in the vessel.
9.7.- 열교환 기
TIFTB
Turbulent Flow Heat Exchanger for TICB
Let us study the heat transfer between hot water that circulates through an internal tube and cold water that flows through the annular zone between the internal and the external tube.
9.7.- 열교환 기
TITCAB
Extended Concentric Tube Heat Exchanger for TICB
It has been designed to study the heat transfer between hot water flowing through an internal tube and cold water flowing through the annular area between the internal and the external tubes.
9.7.- 열교환 기
TIPLAB
Extended Plate Heat Exchanger for TICB
It has been designed to study the heat transfer between hot water and cold water flowing through alternate channels formed between parallel plates.
보완 장비
9.7.- 열교환 기
TICC
Computer Controlled Heat Exchangers Training System
Heat exchangers are widely used in refrigeration, air conditioning, heating, energy generation, chemical processing, etc. They have many applications in engineering and, as a consequence, there are many models adapted to each application to obtain...
9.7.- 열교환 기
TIUS
Base Service Unit (Common for all available Heat Exchangers type "TI")
This unit is common for Heat Exchangers type "TI" and can work with one or several exchangers.This unit performs the following tasks:Heating water in a computer controlled thermostatic bath.Pumping the hot water.Regulation and measurement of the...
9.7.- 열교환 기
TITC
Concentric Tube Heat Exchanger for TICC
Concentric Tube Heat Exchanger for TICC: It has been designed to study the heat transfer between hot water flowing through an internal tube and cold water flowing through the annular area between the internal and the external tubes.
9.7.- 열교환 기
TITCA
Extended Concentric Tube Heat Exchanger for TICC
Extended Concentric Tube Heat Exchanger for TICC: It has been designed to study the heat transfer between hot water flowing through an internal tube and cold water flowing through the annular area between the internal and the external tubes.
9.7.- 열교환 기
TIPL
Plate Heat Exchanger for TICC
Plate Heat Exchanger for TICC: It has been designed to study the heat transfer between hot water and cold water flowing through alternate channels formed between parallel plates.
9.7.- 열교환 기
TIPLA
Extended Plate Heat Exchanger for TICC
Extended Plate Heat Exchanger for TICC: It has been designed to study the heat transfer between hot water and cold water flowing through alternate channels formed between parallel plates.
9.7.- 열교환 기
TICT
Shell & Tube Heat Exchanger for TICC
Shell and Tube Heat Exchanger for TICC: It consists of a series of tubes inside the heat exchanger where hot water flows. The cooling water flows through the space between the inner tubes and the shell.
9.7.- 열교환 기
TIVE
Jacketed Vessel Heat Exchanger for TICC
Jacketed Vessel Heat Exchanger for TICC: Allows the study of heat transfer between hot water flowing through a jacket and thecold water contained in a vessel.
9.7.- 열교환 기
TIVS
Coil Vessel Heat Exchanger for TICC
Coil Vessel Heat Exchanger for TICC: Allows the study of heat transfer between hot water flowing through a coil and cold water contained in the vessel.
9.7.- 열교환 기
TIFT
Turbulent Flow Heat Exchanger for TICC
Turbulent Flow Heat Exchanger for TICC: Let us study the heat transfer between hot water that circulates through an internal tube and cold water that flows through the annular zone between the internal and the external tube.
9.7.- 열교환 기
TICF
Cross Flow Heat Exchanger for TICC
Cross Flow Heat Exchanger for TICC: Designed to study heat transfer between two fluids in cross flow configuration. Hot water flow coming from the base unit enters and leaves a radiator perpendicular to an air current, which is generated by a fan.
9.7.- 열교환 기
TICB
Heat exchanger Training System
Heat exchangers are widely used in refrigeration, air conditioning, heating, energy generation, chemical processing, etc. They have many applications in engineering and, as a consequence, there are many models adapted to each application to obtain...