christian louboutin Waste heat driven adsorption c

Waste heat driven adsorption cooling tube loop characteristics

The performance of adsorption cooling tube of Table 1 and Figure 5 are cooling tube at different heat source temperatures of various performance parameters at run time and cycle Clapeyron diagram. Experimental conditions the runtime environment for the = 20T:, Vail-= 0m / s, = 50%. Tde table for the actual needs of the desorption time. Table 1 Performance parameters of each experimental run in Table 1, the cooling tube desorption time actually needed to change with the heat source temperature showed no significant change; and the maximum condensing temperature with the increase of the basic heat source temperature is rising, in the 325 ~ C at reaches the maximum, minimum of a 41-9) and SCP are with the heat source temperature has been rising. 54Qt-Figure 5 ℃ temperature heat cycle Clapeyron diagram can be seen from Figure 5, the higher the heat source temperature,[link widoczny dla zalogowanych], ab and cd the trend line the more gentle,[link widoczny dla zalogowanych], circular shape of the curve closer to the theoretical cycle, the greater the area surrounding it, indicating that loop the greater the change in the adsorption. 3.2 ambient temperature on the adsorption properties of cooling tube in Table 2 and Figure 6, cooling tube were run under different environmental temperatures in the various performance parameters and cycle Clapeyron diagram. Three experiments run 5432.0.0035.0.003-0.0025-0.002-0.0015-1, T (I / K) +15 ℃ ten 18 ℃ - ◆ _'21 ℃ 24 ~ a C-27C Figure 6 apricot a different temperature cycle clao ~ m Figure 3.3 speed on the adsorption properties of the cold pipe in Table 3 and Figure 7 cooling tube were run under different wind speed and circulation of various performance parameters C ] apeyron map. Run-time environment for experimental conditions = 325 ~ C, = 20 ~ C, = 65%. Table 3 Experimental operation conditions of the performance parameters of the environment as a = 325 ~ C, v spot = 0m / s, = 50%. 5 Table 2 of the performance parameters of experimental runs can be seen from Table 2, actual cooling tube desorption time, the highest condensation temperature, evaporation temperature and the SCP have the lowest environmental temperature increases with the increasing trend was; cycle cooling capacity and COP coefficient of performance with ambient temperature changes is no significant change. Figure 6 shows the change with the ambient temperature, ab and cd do not change the basic trend line, the loop shape of the curve and its surrounding area has changed little,[link widoczny dla zalogowanych], indicating that cyclic changes in the adsorption is consistent; can see from the chart a,[link widoczny dla zalogowanych], ad the trend line with the decrease of temperature has become increasingly flat, and the location of the cycle curve in the top right to move in varying degrees. A 42-4Qc-32 a O. 0035-0.003.0.0025-0.002-0.0015-1 / T (1 / K) + natural convection ten 2. Om / s +5.0 m / s wind speed in Figure 7 different cycles C] ~ t) eyl'on Chart 3 shows that the cooling tube desorption time actual wind speed increase with the rate significantly decreased, due to increased wind speed After the cooling tube surface heat transfer coefficient increases of reasons. Maximum condensing temperature,[link widoczny dla zalogowanych], the lowest evaporation temperature, circulation cooling capacity and the SCP are with the increase of wind speed tended to increase. In addition, the increased wind speed, resulting in cooling tube in the desorption condensation Seventh refrigeration and air conditioning technology exchange across the Taiwan Strait in Xi'an Jiaotong University Academic Exchange Center held. Technicians from the Taiwan Association of Refrigeration and Air Conditioning, Refrigeration and Air Conditioning Engineering Association of Taiwan Province, Taipei University of Technology and the Taiwan Industrial Technology Research Institute and other units of 4 = t-20 on behalf of more than participated in the Taiwan exchange. Taipei University of Technology's Professor Wang Wenbo, Xi'an Jiaotong University, respectively, Professor Xing Ziwen 2o papers across the Taiwan Strait from the field of refrigeration and air conditioning were on new technologies and research done preaching discussion. Achieved good results. Conference Proceedings published. Eighth refrigeration and air conditioning technology exchange across the Taiwan Strait will be held 20Cr7 held in Taiwan. The meeting has been Refrigeration Institute of Shaanxi Province, Xi'an, Xi'an Jiaotong University, Institute of Refrigeration and support. In Jec. To express my sincere thanks. -·--- 43 -·---

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