مشروع البحث: METAL ORGANIC FRAMEWORK MATERIAL ADSORPTION SYSTEM FOR COOLING, DESALINATION AND HEAT STORAGE APPLICATIONS
تحميل...
المساهمين
الممولين
رقم التعريف
250
الباحث
Majdi Massoud Idris Saleh
الوصف
cooling water inlet temperature, adsorption cooling water inlet temperature and desorption hot
water inlet temperature. The results indicate that the performance of the one bed adsorption
system increases with increasing the chilled water inlet temperature and desorption bed heating
water inlet temperature while it decreases with increasing the adsorption bed cooling water inlet
temperature and condenser cooling water inlet temperature.
Also, work was carried out to compare the performance of the developed coated wire finned
heat exchanger to coated rectangular finned and packed rectangular finned heat exchangers
using Aluminium fumarate and the same one bed adsorption system. Results show that the
coated wire finned heat exchanger outperformed the coated and packed rectangular finned heat
exchangers in terms of Specific Cooling Power (SCP), Specific Daily Water Production
(SDWP) of desalinated water, Coefficient of Performance (COP) and energy storage density
(ESD). For water desalination, the coated wire finned heat exchanger produced highest SDWP
of 23.5 compared to 17.2 and 12.7 m3/ton/day for the coated and packed rectangular finned heat
exchangers, respectively. For cooling applications, the coated wire finned heat exchanger
produced highest SCP and COP of 682 W/kg, 0.32 compared to 671 W/kg, 0.11 and 318.5
W/kg, 0.23 for the coated and packed rectangular finned heat exchangers, respectively. For
energy storage, the coated wire finned heat exchanger produced highest ESD of 2361 W.h/kg
الكلمات الدالة
compared to 2266 and 870 for the coated and packed rectangular finned heat exchangers, respectively at half cycle time 2700 s.