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August 22, 2022

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10015 15 0Time (s) Time (s)Time (s) Time (s)(c) (c)(d) (d)Figure 11. The temperature fluctuation in the PHP at 20 W with diverse lengths in the adiabatic section: (a) 60 mm, (b) Figure 11. The temperature fluctuation ofof the PHP at 20 W with distinctive lengths thethe adiabatic section: 60 mm, (b) Figure 11. The temperature fluctuation the PHP at 20 W with different lengths of of adiabatic section: (a) (a) 60 mm, 120 mm, (c) 180 mm, and (d) 240 mm. 120 120 mm,180 180 mm, and 240 240 mm. (b) mm, (c) (c) mm, and (d) (d) mm.70 70 65 65 60 60 55 55 50 50 45 45 40 40 35 35 30 30 25 25 20 20 0E1 E1 E2 EC1 C1 C2 C65 65 60 60 55E1 E1 E2 EC1 C1 C2 CTemperature Temperature Temperature Temperature 50 50 45 45 40 40 35 35 30 30 25Start-up Start-up20 20 4020Start-up Start-up0 0 20 20 40Time (s) Time (s)6080100Time (s) Time (s)6080100(a) (a)Figure 12. Cont.(b) (b)Appl. Sci. 2021, 11, x FOR PEER REVIEW19 of 22 19 of65 60E1 CE2 C60E1 EC1 CTemperature Start-up0 20 40 60 80Temperature 50 45 40 35 30 2550 45 40 35 30 25 20Start-up20 40 60 80Time (s)Time (s)(c)(d)Figure 12. The temperature fluctuation of the PHP 40 W with different lengths from the adiabatic section: (a) (a) 60 mm, Figure 12. The temperature fluctuation on the PHP atat 40 W with unique lengths of your adiabatic section: 60 mm, (b) (b) 120 mm, 180 180 mm, and (d) 240 mm. 120 mm, (c) (c) mm, and (d) 240 mm.three.three.two. Effect of the Adiabatic Section GS-626510 Epigenetic Reader Domain length on the Thermal Performance on the PHP three.three.2. Effect of the Adiabatic Section Length on the Thermal Functionality of the PHP To evaluate the heat transfer overall performance of your PHP with various lengths with the To examine the heat transfer performance in the PHP with diverse lengths from the adiabatic section, the thermal resistances on the PHP with different lengths on the adiabatic adiabatic section, the thermal resistances of your PHP with distinct lengths of your adiabatic section are presented in Figure 13. may be seen that when the heat input was low, the PHP section are presented in Figure 13. ItIt could be seen that when the heat input was low, the with shorter adiabatic length length showed reduced thermal resistance. Asinput increased, PHP with shorter adiabatic showed reduce thermal resistance. Because the heat the heat input the thermal FM4-64 MedChemExpress resistance in the PHP with longer adiabatic adiabatic length became smaller sized increased, the thermal resistance from the PHP with longer length became smaller than that in the PHP the shorter adiabatic adiabatic length. The this was as follows: When the than that of withPHP with shorter length. The cause forreason for this was as follows: length of length of the adiabatic section was small, efficiency on the PHP from the PHP When thethe adiabatic section was tiny, the start-upthe start-up performancewith shorter adiabatic section length was substantially improved than that with the PHP with longer adiabatic with shorter adiabatic section length was considerably much better than that from the PHP with section length. section length. Thus, the thermal resistance of 60 mm with 60 mm adilonger adiabatic Therefore, the thermal resistance of your PHP withthe PHP adiabatic section length showed the showed the lowest thermal the heat at the heat W. Nevertheless, when abatic section lengthlowest thermal resistance atresistanceinput of 20input of 20 W. Howthe heat input improved, the start-up performance of the PHP was improved, and the ever, when the heat input increased, the start-up performance on the PHP was improved, impact with the adiabatic l.