TY  - BOOK
AU  - Mona Ahmed Abdel Mawla Keshk, 
AU  - Adel Khalil Hassan Khalil
TI  - Impact of phase change materials on the performance of the thermally activated buildings / 
U1  - 621 
PY  - 2023///
KW  - Mechanical Power Engineering
KW  - qrmak
KW  - Phase change material
KW  - Radiant cooling
KW  - Thermally activated building
KW  - Energy consumption
N1  - Thesis (Ph.D)-Cairo University, 2023; Bibliography: pages 99-107.; Issued also as CD
N2  - This study reports the feasibility and performance of thermally activated building systems with 
and without Phase Change Materials for the hot and dry climate zone of North Africa. Using a 
validated simulation model, four system configurations are examined for different melting 
temperatures and thicknesses of the Bio-PCMs. The four PCM-TABS systems are also 
compared to two reference systems with an active ceiling or floor. The configurations were 
assessed thermally by the PMVand PCH beside that, the energy saving and the energy cost 
were considered. Also, other experimental tests were performed on two cuboids to test the 
performance of the radiant floor with and without PCM. The results show that the use of PCMs 
is feasible for hot and dry climates, with reductions in energy consumption and running energy 
costs of up to 18.46 and 19.8 %, respectively, achieved when PCMs are incorporated into the 
radiant ceiling while having a melting temperature of 22 Â°C and thickness of 6 cm, and those 
savings increase when using larger volumes of PCMs with melting temperatures closer to the 
setpoint temperature. This comes with a slight reduction in the PPD from nearly 100 % in the 
reference systems to no less than 95.5%. In contrast, the total costs of the energy and the PCM 
together increased with the increase of the PCMâs thickness as the maximum total cost saving 
was 9% achieved when PCMs have a melting temperature of 22Â°C and thickness of 1 cm. Also, 
the numerical results proved that the PCM able to reduce temperature fluctuation by up to 35% 
compared to the cases without PCM. The best integration scheme to simultaneously decrease 
the mean PPD and increase the PCH is a radiant ceiling with a PCM floor for PCM melting 
temperature and thickness of 24Â°C and 5 cm. The experimental results showed that the PCM 
could save up to 84.56 % of the chilled water energy; ÙØ°Ù Ø§ÙØ¯Ø±Ø§Ø³Ø© Ø¹Ù Ø£Ø¯Ø§Ø¡ Ø§ÙÙØ¨Ø§ÙÙ Ø§ÙÙØ´Ø·Ø© Ø­Ø±Ø§Ø±ÙØ§ ÙØ¹ ÙØ¨Ø¯ÙÙ Ø§ÙÙÙØ§Ø¯ ÙØªØºÙØ±Ø© Ø§ÙØ·ÙØ± ÙÙ Ø§ÙÙÙØ§Ø® Ø§ÙØ­Ø§Ø± ÙØ§ÙØ¬Ø§Ù. ØªÙ ÙØ­Øµ Ø£Ø¯Ø§Ø¡ Ø£Ø±Ø¨Ø¹Ø© ØµÙØ± ÙÙÙØ¸Ø§Ù ÙÙÙØ§ ÙØªØ¹ÙÙ Ø¨Ø§ÙÙÙØ§Ø¶Ø¹ Ø§ÙÙØ³Ø¨ÙØ© ÙØ£ÙÙØ§Ø­ Ø§ÙÙÙØ§Ø¯ ÙØªØºÙØ±Ø© Ø§ÙØ·ÙØ± ÙØ¯Ø±Ø¬Ø© Ø­Ø±Ø§Ø±Ø© Ø§ÙØ§ÙØµÙØ§Ø± ÙØ§ÙØ­Ø¬Ù. ØªÙ ØªÙÙÙÙ Ø§ÙÙØ¸Ø§Ù Ø­Ø±Ø§Ø±ÙÙØ§ ÙÙ Ø®ÙØ§Ù ÙØ³Ø¨Ø© Ø¹Ø¯Ù Ø§ÙØ±Ø§Ø­Ø© Ø§ÙØ­Ø±Ø§Ø±ÙØ© ÙÙØ³Ø¨Ø© Ø³Ø§Ø¹Ø§Øª Ø§ÙØ±Ø§Ø­Ø©Ø ÙØ¹ ÙØ±Ø§Ø¹Ø§Ø© ØªÙÙÙØ± Ø§ÙØ·Ø§ÙØ© ÙØ§ÙØªÙÙÙØ©. Ø£ÙØ¶ÙØ§Ø ØªÙ Ø¥Ø¬Ø±Ø§Ø¡ Ø§Ø®ØªØ¨Ø§Ø±Ø§Øª ØªØ¬Ø±ÙØ¨ÙØ© Ø¹ÙÙ ÙÙØ¹Ø¨ÙÙ Ø¨Ø­Ø¬Ù 1Ù3 ÙØ§Ø®ØªØ¨Ø§Ø± Ø§ÙØ£Ø±Ø¶ÙØ© Ø§ÙÙØ´Ø¹Ø© ÙØ¹ ÙØ¨Ø¯ÙÙ Ø§ÙÙÙØ§Ø¯ ÙØªØºÙØ±Ø© Ø§ÙØ·ÙØ±. ØªØ¸ÙØ± Ø§ÙÙØªØ§Ø¦Ø¬ Ø£Ù Ø§Ø³ØªØ®Ø¯Ø§Ù Ø§ÙÙÙØ§Ø¯ Ø§ÙÙØªØºÙØ±Ø© Ø§ÙØ·ÙØ± ÙØ¹ Ø§ÙÙØ¨Ø§ÙÙ Ø§ÙÙØ´Ø·Ø© Ø­Ø±Ø§Ø±ÙØ§ Ø£Ø¯Ù Ø§ÙÙ Ø§ÙØ®ÙØ§Ø¶ ÙÙ Ø§Ø³ØªÙÙØ§Ù Ø§ÙØ·Ø§ÙØ© ÙØªÙØ§ÙÙÙÙØ§ ÙØµÙ Ø¥ÙÙ 18.46 Ù19.8ÙªØ Ø¹ÙÙ Ø§ÙØªÙØ§ÙÙ ÙØ¹ Ø§ÙØ®ÙØ§Ø¶ Ø·ÙÙÙ ÙÙ ÙØ³Ø¨Ø© Ø³Ø§Ø¹Ø§Øª Ø§ÙØ±Ø§Ø­Ø© ÙÙ 100 Ùª Ø¥ÙÙ ÙØ§ÙØ§ ÙÙÙ Ø¹Ù 95.5 Ùª. ÙØªÙ ØªØ­ÙÙÙ Ø£ÙØµÙ ØªÙÙÙØ± Ø¥Ø¬ÙØ§ÙÙ ÙÙ Ø§ÙØªÙÙÙØ© Ø¨ÙØ³Ø¨Ø© 9Ùª. Ø£Ø¸ÙØ±Øª Ø§ÙØªØ¬Ø§Ø±Ø¨ Ø£Ù Ø§ÙÙÙØ§Ø¯ ÙØªØºÙØ±Ø© Ø§ÙØ·ÙØ± ÙÙÙÙ Ø£Ù ØªÙÙØ± Ø­ØªÙ 84.54Ùª ÙÙ Ø·Ø§ÙØ© ØªØ¨Ø±ÙØ¯ Ø§ÙÙÙØ§Ù
ER  -