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Submerged PC Cooling By: Patrick Hague Geoffrey Clark Christopher Fitzgerald Group 11.

Published byMarybeth Fisher Modified over 8 years ago

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Presentation on theme: "Submerged PC Cooling By: Patrick Hague Geoffrey Clark Christopher Fitzgerald Group 11."— Presentation transcript:

1 Submerged PC Cooling By: Patrick Hague Geoffrey Clark Christopher Fitzgerald Group 11

2 History of PC Cooling Early personal computers did not require active cooling Increasing demand for computer technology requires cooling improvements Today’s smaller devices require more complex analysis and design for cooling

3 Cooling Methods In Use Aluminum heat sinks The cumulative energy consumption worldwide of both manufacturing the heat sinks and operating the fans is an estimated 10 9 kW hours per year!

4 …Other Methods Heat pipes are a very effective method of removing the heat from the surface of the processor Water cooling using water blocks requires the use of a pump and radiator

5 Objectives Reduce power consumption of system Increase cooling potential Reduced noise pollution

6 Why Submersion? Lower velocity for heat migration required The ability to remove the heat from the components, and dissipate it in a general location

7 Enclosure Design Sizing Specifications: 1. Fit inside case with components 2. House all the pc boards 3. Must be water tight 4. Modular design

8

9 Enclosure Design (cont.) ¼ inch acrylic enclosure for visibility Vertical cable orientation 3 gallon capacity

10 Components CPU: AMD Athlon XP 2000+ = 60 Watts Max GPU: ATI x700 Pro = 33 Watts Full Load Memory, Motherboard = 60 Watts Total Heat Output expected = 153 Watts (safety factor included)

11 Initial Setup

12 Designing Heat sink Must dissipate 153 Watts Should fit as cover over the enclosure Cannot interfere with case components Fins must be spaced far enough apart to allow proper natural convection cooling Heat sink must contact fluid

13 Heat Transfer Analysis Ensure the CPU and GPU temperatures are within specifications. Maintain a stable operating environment, no hot pockets of fluid. Keep the fluid at a temperature relative to a typical air cooled case.

14 Heat Transfer Solution CPU/GPU Calculations: Enclosure Heat sink Calculations: b + b

15 CPU/GPU Calculate the base temperature of both CPU and GPU Use extended fin equations in natural convection

16 Enclosure Heat Sink Use the CPU/GPU fluid temperature as a given Determine the surface area required to dissipate the total 153 Watts

17

18 Finished Heat Sink

19

20 Results

21 Conclusions Case can be cooled with passive cooling Power consumption has been reduced by approximately 5 Watts Case is effectively silent

22 Where to go from here? Commercial applications on larger scale  Server applications have high power density  More fluid yields greater results

23 Questions? Thank You

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