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1、Essay写作复合内翅片的实验研究与性能试验Experimental Study and Performance Test of Composite Internal FinsAbstractHeat transfer performance for both brass and composite(Al+SiC)finned of brass pipe has been investigated experimentally.The composite finned tube was designed,fabricated and installed and was heated elect
2、rically.The same was done for a brass finned tube in order to make comparison.Heat transfer coefficient for composite finned tube is about 1.09 to 1.11 times higher than that of brass finned tube.Higher thermal conductivity of composite material is responsible for this heat transfer enhancement.The
3、composite finned tube in this study produces significant heat transfer enhancement at the same Reynolds number than that of brass finned tube.Keywords:Heat transfer,composite fin,thermal conductivity.1.IntroductionInternal fins are used in phase change material storages(PCM).PCM are used to balance
4、the temporary temperature alteration and to store energy in several practical fields like automobile industries.The rate of heat transfer from fluid flowing through the micro channels can be greatly enhanced by use of internal fins.T.Kanthimathi1focused on the study of the radial composite fins to i
5、ncrease the heat transfer rate in many applications.Y.Pratapa Reddy2made to fabricate circular pin fin made of different metals,Aluminium,Copper,combination of Aluminium and Copper and combination of Brass and Copper as composite bars and analyzed their performance in terms of fin efficiency,heat tr
6、ansfer rate and temperature distribution along the fin.Jiang3measured the performance of conventional silica gel coated heat exchanger(SGCHE),a novel composite silica gel coated heat exchanger(CCHE)was proposed and fabricated.Wu Xuehong4investigated the performance of air-side heat transfer and flui
7、d flow by numerical simulation for Reynolds number ranging from Re=304 to 2130.The objective of the research is to study the effect of composite internal longitudinal fins in a circular tube on heat transfer characteristics in the entrance region as well as in the fully developed region.Essay writin
8、g service on repor t.lxws.n et2.DESIGN&CONSTRUCTIONSand casting was used in this experiment to manufacture brass pipe.Composites were made from 98%pure aluminum.In this experiment pure SiC was used in 10%weight fraction with aluminum.Mg(1 wt%)was added to improve the wettability and incorporation fr
9、action of ceramic particles.Micro-sized SiC particles were used as reinforcement of pure aluminum to fabricate as-cast aluminum matrix composite,and Mg(1 wt%)was added to improve the wettability and incorporation fraction of ceramic particles.Figure 1 Composite(Al+SiC)rectangular fins with brass pip
10、eAdhesive was used to join the composite fins with the brass pipe.3.EXPERIMENTAL SETUPAn experimental set up was designed,fabricated and installed to study the heat transfer performance of circular tube having internal longitudinal fins.Air was used as the working fluid.Dimensions of pipe and fins:L
11、ength of the cylindrical pipe,L=25.5 cm=.255 mInner diameter of the tube,Di=8.38 cm=.0838 mOuter diameter of the tube,Do=8.89cm=.0889 mHeight of fin,H=.013 mThickness of fin,W=.003 mTotal number of fin,N=4Procedure of Experiment:The fan was first switched and allowed it to run for a few minutes so t
12、hat the transient characteristic died out.Then electrical heating circuit was switched on.The readings for the velocity were taken by hot wire anemometer along the diameter of the pipe.First the variation in wall thermocouples was observed until constant values were attained;then the outlet air temp
13、erature was monitored.Figure 3.1 Experimental setup of composite(Al+SiC)finned tubeAfter one run of the experiment at a particular Reynolds number,the Reynolds number was changed with the help of the flow control regulator keeping electrical power input constant.All the thermocouples readings were t
14、aken at each axial direction for each run of the experiment.Same experimental procedure was applied for both brass and composite(Al+SiC)finned tube.4.EQUATIONSReynolds Number:Re=Mean velocity of test section,V=,Properties of fluid are calculated at its bulk temperatureHeal transfer calculation:Total
15、 heat taken by air,Q=MCp(ToTi)Heat taken per unit area,Q=The local bulk temperature of the fluid can be calculated according to the following way-Q=Now,bulk temperature,Tbx=Ti+)x=Ti+Local convective heat transfer coefficient is given by hx=Local Nusselt number is,Nux=List of SymbolsAxf Cross sectional area of finned tube(m)Cp Specific heat of air(kJ/kgC)M Mass flow rate(kg/s)Q Rate of heat transfer(W)T Temperature(oC)x Axial distance(m)Density or air(kg/m3)Tbx Bulk temperature of fluid(oC)Twx Wall temperature of brass pipe(oC)hx Local heat transfer coefficient(W/m2oC)Nux Local
