Publication detail
THERMAL PROPERTIES OF CARDIOPLEGIA HEAT EXCHANGERS
BARTULI, E. BORKOVEC, O.
English title
THERMAL PROPERTIES OF CARDIOPLEGIA HEAT EXCHANGERS
Type
conference paper
Language
en
Original abstract
Cardiac surgeries that involve cardiopulmonary bypass technique require a stable temperature maintenance for oxygenated blood or the cardioplegia solution. For this purpose, the heat exchangers are used. Nowadays, these exchangers consist of stainless steel tubes or bellows in a plastic shell. The blood is then warmed or cooled by water flowing in the shell around these structures. In the paper, the thermal specifications of two commercially used cardioplegia heat exchangers Capiox Cardioplegia and MYOtherm XP were evaluated and compared. For this purpose, a water was used as a substitution for blood. Both components were tested for varying flow rates in the pipes in the range 20-150 l/h and fixed flow rate 700 l/h in the shell. The thermal performances of both devices resulted similarly (up to 2.4 kW) at maximal flow rate. The performance factors for low flow rates approached values close to 0.98 and with increasing flow rate decreased down to 0.50. MYOtherm XP shows lower pressure drop than Capiox Cardioplegia due to more optimal construction. The major difference between the heat exchangers was observed in overall heat transfer coefficients at maximal flow rate and resulted in 2191.3 W/m(2)K or 1760.2 W/m(2)K for MYOtherm XP or Capiox Cardioplegia, respectively.
English abstract
Cardiac surgeries that involve cardiopulmonary bypass technique require a stable temperature maintenance for oxygenated blood or the cardioplegia solution. For this purpose, the heat exchangers are used. Nowadays, these exchangers consist of stainless steel tubes or bellows in a plastic shell. The blood is then warmed or cooled by water flowing in the shell around these structures. In the paper, the thermal specifications of two commercially used cardioplegia heat exchangers Capiox Cardioplegia and MYOtherm XP were evaluated and compared. For this purpose, a water was used as a substitution for blood. Both components were tested for varying flow rates in the pipes in the range 20-150 l/h and fixed flow rate 700 l/h in the shell. The thermal performances of both devices resulted similarly (up to 2.4 kW) at maximal flow rate. The performance factors for low flow rates approached values close to 0.98 and with increasing flow rate decreased down to 0.50. MYOtherm XP shows lower pressure drop than Capiox Cardioplegia due to more optimal construction. The major difference between the heat exchangers was observed in overall heat transfer coefficients at maximal flow rate and resulted in 2191.3 W/m(2)K or 1760.2 W/m(2)K for MYOtherm XP or Capiox Cardioplegia, respectively.
Keywords in English
Cardioplegia heat exchanger; Thermal performance; Performance factor; Heat transfer coefficient; Pressure drop
Released
25.11.2020
Publisher
BRNO UNIV TECHNOL, FAC MECHANICAL ENGINEERING
Location
BRNO
ISBN
978-80-214-5896-3
ISSN
1805-8248
Book
ENGINEERING MECHANICS 2020 (IM2020)
Volume
26
Number
2020
Pages from–to
82–85
Pages count
4
BIBTEX
@inproceedings{BUT177301,
author="Erik {Bartuli} and Ondřej {Borkovec},
title="THERMAL PROPERTIES OF CARDIOPLEGIA HEAT EXCHANGERS",
booktitle="ENGINEERING MECHANICS 2020 (IM2020)",
year="2020",
volume="26",
number="2020",
month="November",
pages="82--85",
publisher="BRNO UNIV TECHNOL, FAC MECHANICAL ENGINEERING",
address="BRNO",
isbn="978-80-214-5896-3",
issn="1805-8248"
}