PC COOLERS From : Gurwinder Singh To: Jeffery

PC COOLERS From : Gurwinder Singh To: Jeffery Aylesworth TYPES OF COOLERS ? Air coolers ? Liquid coolers LIQUID COOLERS ? Liquid coolers use water or other liquid to cool the pc. ? Use PC fans to cool the pc. AIR COOLERS OVERVIEW ? Common fan composes: outward (“squirrel bind”), center, extraordinary plans (checking extended) ? Fan rotate bearing (clockwise or counterclockwise) is basic in light of the way that the edges and hotel are expected to arrange stream only one way ? Pressure drop through the structure must be known to pick a fan. ? Fans are calmest when they work close apex profitability; efficiencies are routinely given on fan twists. ? We will simply look at vital fans here in light of the way that they are the most surely understood create used as a piece of equipment cooling. Center point FLOW FANS ? Common makes: propeller, tubeaxial, vaneaxial ? Tubeaxial: impeller is inside a tube to control wind current and improve execution ? Vaneaxial: like a tubeaxial beside vanes either up or downstream of the impeller are used to decrease spin and upgrade execution ? Used to pass on far reaching stream rates however little addition in weight ? Examples consolidate fans used for ventilation without ventilation work, versatile room fans, and fans used to cool PCs Tubeaxial fan for PC cooling Tubeaxial fan for ventilation Vaneaxial fan for high air security contraptions cooling Straightening vanes are arranged inside tube ANEAXIAL FLOW FAN V Source: ASHRAE Handbook ? Fan twists are frequently given similarly as total weight versus volumetric stream rate ? A typical fan running at a settled speed can give a more important volumetric stream rate for systems with humbler total weight drops (in the event that we’re to the other side of the peak in the fan twist). ? Total weight loss=static weight loss+dynamic weight disaster 1 DP = (P – P ) + r (V 2 – V 2 ) indicate in,static out ,static 2 in out SYSTEM PRESSURE EFFECTS ? If exit and channel zone of a conductor are about the same, the dynamic weight hardship (or get) may be unimportant. ? Manufacturer will give a fan curve to each fan he or she conveys. ? The fan twists expect the weight stream rate execution of each fan. ? Choose a fan that gives you the volumetric stream rate you necessity for your system weight drop. ? Choose a fan that has its apex profitability at or near your working point. ? Sometimes will give data in a table rather than in an outline. FAN CURVES FAN CURVES Source: ASHRAE Handbook FAN LAWS Fan data for geometrically relative fans can be folded onto a lone twist using dimensionless numbers dimensionless stream rate P1 = Q D3N Q=volumetric stream rate D=fan separate crosswise over dimensionless weight rise P2 = DP r D2 N 2 N=fan rotational speed W=fan control r =fluid thickness dimensionless power P3 = W r D5 N 3 DP=fan weight rise FAN LAWS ? The laws simply apply to productively near fans at a comparative motivation behind rating on the execution twist. ? Under these conditions, the dimensionless parameters will be constants. For example, if fan operation moves from control 1 toward point 2, the estimations of the dimensionless parameters won’t change and therefore can be used to assess structure impacts. ? Be vigilant about using the fan laws to choose the effect of fan speed change – you may move to an out and out various spot on the execution twist, which will dishonor your results. FAN LAWS ? Law 1 – relates to effect of developing size, speed, or thickness on volume stream, weight, and power level ? Law 2 – relates to effect of advancing size, weight, or thickness on volume stream rate, speed, and power ? Law 3 – shows effect of advancing size, volume stream, or thickness on speed, weight, and power TWO FANS IN PARALLEL OR SERIES ? For two unclear fans in parallel, you can impact your own fan to twist by taking the primary fan twist and increasing the volumetric stream rate for a given weight. ? For two indistinct fans in course of action, you can impact your own specific fan to twist by increasing the weight drop for a given volumetric stream rate. ? Which would be smarter to cool PC chasses? ? Watch out: “If in parallel you put your fans excessively near, their in-and surges will tend to intrude.” Tony Kordyban Fans in game plan Fans in parallel FANS IN SERIES AND PARALLEL indistinguishable dubious indistinct