Manufactured by Maniks
Introduction: Design of Maniks Heat Pipe Introduction to Maniks Heat Pipe Working Principle Working of Heat Pipes Components of Heat pipe Advantages Applications
Design of Maniks Heat Pipe:
Introduction to Maniks Heat Pipe: Heat pipe is a very easier way to transfer and recover heat energy generated in various applications or systems. It works on the principle of phase transfer and heat exchange. Maniks manufactures high efficient, cost effective heat pipes used in variegated applications. Heat pipe Application area of heat pipes is very wide they are seen in the applications from aerospace applications to handheld devices.
Working Principle: A heat pipe is a two phase heat transfer device with a very high effective thermal conductivity. It is a vacuum tight device consisting of an envelope, a working fluid, and a wick structure. As shown in Figure 1, the heat input vaporizes the liquid working fluid inside the wick in the evaporator section. The saturated vapor, carrying the latent heat of vaporization, flows towards the colder condenser section. In the condenser, the vapor condenses and gives up its latent heat. The condensed liquid returns to the evaporator through the wick structure by capillary action. The phase change processes and two- phase flow circulation continue as long as the temperature gradient between the evaporator and condenser are maintained.
Working of Heat Pipes: These gadgets are fixed vessels that are cleared and inlayed with a working liquid, regularly in a little amount. The funnels utilize a blend of vanishing and buildup of this working liquid to move heat in to a great degree proficient way. The most widely recognized heat pipe is round and hollow in cross-area, with a wick on the internal measurement. Cool working liquid travels through the wick from the colder side (condenser) to the more sweltering side (evaporator) where it vaporizes. This vapor at that point moves to the condenser's warmth sink, carrying warm vitality alongside it.
Components of Heat pipe: It provides very high thermal conductance when designed properly and it is a passive heat transfer device. It enables transfer of heat by the action known as “Capillary Action”. There are three major elements in heat pipe responsible to transfer heat namely: Working Fluid It transfers heat energy from one point to another by the process of evaporation and condensation. The fluid is reticulated inside the vacuum tube by means of the forces known as “Capillary Forces”. Wick Capillary structure This wick capillary structure is responsible for the circulating the liquid from condensation to evaporator end with the help of capillary forces. Vacuum Sealed tube This structure can be made up of aluminum, copper, titanium, stainless steel, tungsten etc. most common tubes of Heat pipes are made from the copper.
Advantages: Maniks is a traditional supplier in the world of electromagnetic devices and they have proven their best quality since last thirty years following are the advantages of Maniks heat pipe which are responsible for their best performance Maniks I provides high effectiveness for rapid payback It is available in compact in size No moving parts for virtually maintenance free operation Fits units by most manufacturers No external power required for working Practically zero back pressure Zero cross contamination streams of source and sink are physically separated Passive operation
Applications: Maniks heat pipes are very cost effective and reliable product which gives better performance for longer life hence they are used comprehensively in variety of applications such as Computer systems Solar thermal Permafrost cooling Cooking appliances Any reheat application Schools, Laboratories, Hospitals, Office Buildings Industrial purposes HVAC