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contributor authorAnilchandra Attaluri
contributor authorZhongping Huang
contributor authorLiang Zhu
date accessioned2017-05-09T00:41:02Z
date available2017-05-09T00:41:02Z
date copyrightMarch, 2010
date issued2010
identifier issn1948-5085
identifier otherJTSEBV-28813#011007_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/144853
description abstractIn this study, we build and test a prototype of an interstitial cooling device in a tissue-equivalent gel phantom mimicking the human neck. The effectiveness of the device is measured by the capability of delivering a coolant temperature of lower than 5°C at the entrance of the device and the measured temperature decay along a glass tube filled with water circulating at a speed similar to that in the carotid artery. The experimental study has identified a cooling prototype design, which is capable of inducing sufficient temperature reduction along the common carotid artery. It also tests how easy to handle the device to ensure a close physical contact between the device and the glass tube. A 5°C coolant temperature can be delivered at the device entrance when using above 0°C coolant in the reservoir. The surface temperature of the device is found almost uniform. Despite its limitations, the experimental results agree generally with previous theoretical predictions. The 8 cm long and 3 cm wide device with a coolant temperature lower than 10°C is capable of inducing a temperature reduction of at least 2.5°C along the glass tube filled with water circulating at 240 ml/min. For higher water flow rates, one needs to increase the length of the device and/or lower the coolant temperature to achieve similar temperature decays along the glass tube.
publisherThe American Society of Mechanical Engineers (ASME)
titleEvaluation of an Interstitial Cooling Device for Carotid Arterial Cooling Using a Tissue Equivalent Gel Phantom
typeJournal Paper
journal volume2
journal issue1
journal titleJournal of Thermal Science and Engineering Applications
identifier doi10.1115/1.4002196
journal fristpage11007
identifier eissn1948-5093
keywordsTemperature
keywordsCooling
keywordsGlass
keywordsBiological tissues
keywordsPhantoms
keywordsWater
keywordsFlow (Dynamics)
keywordsCoolants
keywordsEngineering prototypes AND Carotid arteries
treeJournal of Thermal Science and Engineering Applications:;2010:;volume( 002 ):;issue: 001
contenttypeFulltext


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