โครงงานนี้ได้ทำการทดลองหาค่าสัมประส

This project has made to try to find coefficients convection and friction coefficient values of CO2 gas as heat exchangers, pipe flow in Annulus with a wire spiral insert between the tube wall and flowing conditions above the critical point pressure 75 bar, 80, 90 and in the temperature range 30-90 oC by thermal Exchange tube test, made from copper, Do size = 9.525 mm (3/8 ") and size Do = 15.875 mm (5/8") in length and 1 m coil of wire used is made from copper, Do size = 1.7 mm stage phit 2 cm make determine convection coefficient experiment by CO2 pressure works, 75, 80 and 90 bar, respectively, and at 30, 40, 60, 80 and 90° C at.Mold the flow of CO2 is equal to 1.2 GPM water flow rate in the range of 0.2-20 GPH, and experiment to find the coefficients of friction pressure CO2 is 75, 80 and 90 bar temperature carbon dioxide at 40, 50, 60, 80 and 90 oC gas flow rate of CO2 is 1.0 1.3 GPM calculated coefficients – treating her.The average heat of CO2 gas by Modified method and calculated plot Willson friction coefficient value by calculating the difference in pressure tubes from the experimental results can be concluded that the convection coefficient values of CO2 is increased when the temperature of the CO2 near the pseudo-critical te.Mperature and will gradually decrease until it is quite probably that without the pressure of CO2 at bar 75 coefficients convection of CO2 will have the most value in the temperature range of 30-60 second oC would be a pressure bar and the bar 90 80 respectively, but the temperature range 80 – 90 oC convection coefficient values of CO2. At 90 bar pressure will have the most value and the second is at 80 bar and 75 bar when compared with the experimental results of heat exchange tube not wearing a wire Helix reveals that there are convection coefficients and coefficients of friction gas CO2 increased more than 2 times and 19 times, respectively. Even though it will cause friction coefficient values increase by up to 19 times, but they cause a loss of pressure, most simply only 307 75 mbar bar from which is less so if the convection coefficient value is added by inserting a wire spiral.

This project was conducted convection coefficient and the coefficient of friction of the gas as CO2 flow heat exchanger Annulus with spiral wire inserted between the pipe wall. The flow conditions at a pressure above the critical point of 75, 80, 90 bar and a temperature range of 30 - 90 oC in a test tube heat exchanger made of copper Do = 9.525 mm (3/8 ") and Do =. 15.875 mm (5/8 ") long and 1 m and the spiral wire made of copper Do = 1.7 mm pitch of 2 cm were determined coefficient of heat by the CO2, the pressure is 75, and 80. 90 bar respectively at 30, 40, 60, 80 and 90 ° C, flow rate of CO2 equal to 1.2 GPM of water flow rate in the range of 0.2-20 GPH and tested for coefficient of friction pressure. of CO2 are 75, 80 and 90 bar, temperature, carbon dioxide, 40, 50, 60, 80 and 90 oC flow rate of the gas CO2 is 1.0 - 1.3 GPM coefficient of average heat of the gas CO2 by Modified Willson plot method. and calculate the coefficient of friction by calculating the difference in the pressure pipe. The results conclude that the convection coefficient of CO2 will increase as the temperature of CO2 near the pseudo-critical temperature, and then gradually decreased until relatively constant. The pressure of CO2 at 75 bar convection coefficient of CO2 will be most valuable in the temperature range of 30-60 oC down to a pressure of 80 bar and 90 bar, respectively, but the temperature range 80 -. 90 oC coefficient of thermal convection of CO2 at a pressure of 90 bar would have the greatest value and the second will be at 80 bar and 75 bar compared with the experimental tube heat exchangers without wire spiral found. coefficient of thermal convection coefficient of friction of the gas CO2 increase more than 2 times and 19 times, respectively, even though it makes the friction coefficient increases up to 19 times, but it causes a pressure loss. Most just 307 mbar to 75 bar, which has only a very small fee. So it is worth to increase the coefficient of heat by putting a wire spiral.

This project was conducted to find the convective heat transfer coefficient and the friction ของแก๊ส CO2 flowing in tube heat exchanger. Annulus with spiral wire wear between the pipe wall. Condition of flow over a critical point, the pressure 7580, and 90 bar temperature range 30 - 90 oC. By test tube heat exchanger is made of copper Do size = 9.525 mm (3 / 8. ") and the size Do = 15.875 mm (5 / 8.") long and 1 m เกลียวลวด used made from copper. Do = 1.7 mm phase pit 2 cm experiment for convective heat transfer by the CO2 work pressure, and 75 80 90 bar respectively, and temperature 30 40 60,,, and 80 90 ° C. The flow rate of the CO2 was 1.2 GPM flow rate of water in the 0.2-20 GPH experiment coefficient and friction pressure of CO2 is 75 80 90 bar, and carbon dioxide, temperature, 40 50, and 60 80 90 oC. Gas flow rate CO2 is 1.0 - 1.3 GPM calculate average convective heat transfer of gas CO2 way Modified Willson plot method and calculate the coefficient of friction ระสิทธิ์ by calculation from the pressure difference in the pipe.CO2 increased when the temperature of the CO2 near the pseudo-critical temperature and will gradually reduced until a relatively constant without pressure. CO2 in 75 bar convective heat transfer of CO2 are most valuable in the temperature range of 30-60 oC.And 80 bar 90 bar respectively but the temperature range 80 - 90 oC. Convective heat transfer of CO2 pressure 90 bar are most valuable and down will be 80 bar 75, and barCO2 increased more than 2 times and 19 times, respectively, although the coefficient of friction increased up to 19 imaginable. But it causes the pressure loss the most just 307 mbar only from 75 bar which was very low.