انتقال الحرارة في الغليان الحوضي باستخدام موائع النانو == Pool Boiling Heat Transfer Using Nanofluids
Author name:
خيرية مطر عيسى الخزاعي
Supervisor name:
جمال مانع علي الربيعي
General topic:
Chemical Engineering
Specific topic:
Chemical Engineering
Degree:
Master
University:
University of Technology - Department Of Chemical Engineering
Language:
English
University location:
Baghdad
First pages:
38T279 - p.pdf
Abstract:
يمكن اعتبار نظام المغلي التنوي واحدة من اكثر الطرق فعالية لزيادة التبادل الحراري في منطقة صغيرة نسبيا. انتقال الحرارة في الغليان الحوضي لموائع النانو تم التحقق عنها تجريبيا باستخدام مياه الالومينا AL2O3 ومياه ثاني اوكسيد التيتانيوم TiO2.كموائع نانويه (n | Nucleate boiling regime can be considered one of most effective ways to increase the heat exchange in a relatively small area. Pool boiling heat transfer nanofluid was investigated experimentally using Al2O3 - water and TiO2 - water nanofluids. The experimental test rig consists of boiling vessel and electrically heated plate heating element of stainless steel as heating element. Different concentrations of nanofluids were tested (0.05w %, 0.1w %, 0.3 w%, and 0.5 w %). The nanofluids for Al2O3 and TiO2 were prepared by mixing the( Al2O3 and TiO2) nanoparticles with distilled water in magnetic stirrer for three time periods at (2, 3 and 4) hours and for 1 hour in an ultrasonic bath to suspend the nanoparticles in base fluid. The nanofluids were scanned by scanning electron microscope to ensure well dispersion of nanoparticles in distilled water. Experiments were carried out firstly using pure water then nanofluid to compare the heat transfer enhancement. Results give maximum enhancement ratio in heat transfer rate of (100%) for 0.5% weight concentration for Al2O3 - water nanofluid and (81.82%) for TiO2 - water nanofluid at the same concentration. In both nanofluids the enhancement ratio increases with increased nanoparticle concentrations.This lead to increase in pool boiling heat transfer coefficient.
