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Symmetry 2020, 12, 1963 Symmetry 2020, 12, x FOR PEER REVIEW 8 of 12 8 of 12 (a) (b) (c) Figure 6..(a(a))OOpepnecnircuirictuviotltvaogletagned ealnedctreicleacl tproicwalerpoofwHeZr20ocfoHrrZes2p0oncodrinregstpootnhdeihnogt stiodethteemhpoetrastuidre. ◦ t(ebm)pCelroasteudr-ec.ir(cbu)iCtlvoosletda-gceircaunidtveoleltcatgriecalnpdoewleecrtrcicoarlrepsopwoenrdcinogrretosplonadinrgestiostalonacder(e@sTisHtan=ce23(@0THC=). 2(c3)0 M°Ce)a.s(uc)reMmeeansturoefmthenetopfetnh-eciorpcuenit-cviroclutaitgevodlteapgendeinpgenodnintgheoncothmepcroemsspivressfoivrecefoarpceplaiepdpltioedthtoe thermoelectric module (@T = 230 ◦C) (n = 6). the thermoelectric module (H@TH = 230 °C) (n = 6). 3.2. Experimental Results of TEG Power Generation Performance 3.2. Experimental Results of TEG Power Generation Performance Based on the experimental results of the thermoelectric module performance test, the experimental Based on the experimental results of the thermoelectric module performance test, the results of the present TEG test were analyzed. Figure 7 describes the power performance of the TEG experimental results of the present TEG test were analyzed. Figure 7 describes the power model respectively when attached to the exhaust gas duct. As mentioned earlier, since ∆T has a linear performance of the TEG model respectively when attached to the exhaust gas duct. As mentioned relationship with voltage according to Equation (1), it is reasonable that power came out as double earlier, since ΔT has a linear relationship with voltage according to Equation (1), it is reasonable that square relation with ∆T. Although Figure 7 reveals quite a similar pattern with Figure 6a from the power came out as double square relation with ΔT. Although Figure 7 reveals quite a similar pattern module performance test, it could be seen that the overall performance of the TEG system was declined. with Figure 6a from the module performance test, it could be seen that the overall performance of the The maximum electric power was 8.2 W which was 2.3 W less than the previous module performance TEG system was declined. The maximum electric power was 8.2 W which was 2.3 W less than the test. This was due to the presence of temperature gradient along the axial direction of the exhaust gas previous module performance test. This was due to the presence of temperature gradient along the duct which affected the module surface temperature distribution as well. As a result, the possibility of axial direction of the exhaust gas duct which affected the module surface temperature distribution as the performance decline arises from the uniform temperature distribution on the module surface. well. As a result, the possibility of the performance decline arises from the uniform temperature Since the hot side of the TEG is capable of operating up to 230 ◦C, and it is a device that only needs distribution on the module surface. to be adjusted within 100 ◦C when developing a PCR device, it will not be difficult to get such a heat Since the hot side of the TEG is capable of operating up to 230 °C, and it is a device that only source in the ISS environment, whether it can be radiation energy or other heat devices. As mentioned needs to be adjusted within 100 °C when developing a PCR device, it will not be difficult to get such earlier, in the process of selecting the gene to be amplified from the DNA sample of interest through a heat source in the ISS environment, whether it can be radiation energy or other heat devices. As PCR, the temperature change inside the unit between 60 ◦C and 95 ◦C is important; the temperature is mentioned earlier, in the process of selecting the gene to be amplified from the DNA sample of raised to 95 ◦C so that all double-stranded DNA would melt into a single strand, and then lowered to interest through PCR, the temperature change inside the unit between 60 °C and 95 °C is important; 60 ◦C so that the primers could bind to the gene of interest. Additionally, the optimal temperature for the temperature is raised to 95 °C so that all double-stranded DNA would melt into a single strand, the polymerase to operate the replication of DNA strands is 72 ◦C. The TEG may have great potential and then lowered to 60 °C so that the primers could bind to the gene of interest. Additionally, the not only for providing power to the real-time PCR device, but also for using it as a heat. Preheating optimal temperature for the polymerase to operate the replication of DNA strands is 72 °C. The TEG the real-time PCR device can be possible by utilizing the TEG cold side as a heat source. By using an may have great potential not only for providing power to the real-time PCR device, but also for using it as a heat. Preheating the real-time PCR device can be possible by utilizing the TEG cold side as a heat source. By using an adequate heat-resisting ceramic material, PCR can be controlled within 100PDF Image | Small Thermoelectric System Applicable to Real-Time PCR Devices
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