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REMOVAL OF WASTE HEAT FROM ELECTRONIC COMPONENT USING PHASE CHANGES
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References18
Akachi, H.: Structure of a Heat Pipe, US Patent, No 4,921,041, 1990.
Baďurová, S. – Ponechal, R.: The comparative analysis of external walls in a passive house with respect to environment and energy. In: enviBUILD 2012, October 25th- 26th 2012, Brno, University of Technology. - Brno: VUT, 2012. - ISBN 978-80- 214-4600-7. - CD-ROM, s. 413-420.
Ďurica, P. -Baďurová, S. – Ponechal, R.: Energy and environmental evaluation of the selected wooden family houses . In: Communications : scientific letters of the University of Žilina. - ISSN 1335-4205. - Vol. 15, no. 1 (2013), s. 88-95.
Fasula: Oscillating heat pipes, Rhode Island: University of Rhode Island, May 2009, p. 46.
Groll, Khandekar: Roadmap to Realistic Modeling of Closed Loop Pulsating Heat Pipes. In 9th International Heat Pipe Symposium. Kuala Lumpur, Malaysia.
Reay, D. – Kew, P,: Heat Pipes Theory, Desing and Applications. UK: Fifth Edition, 2006, ISBN-13: 978-0-7506-6754-8
Qu, W. – Ma, H.B.: Theoretical analysis of startup of a pulsating heat pipe. I n: International Journal of H eat and Mass Transfer. 2006, vol. 50, Issues 11 -12, p. 2309-2316. ISSN: 0017-9310.
Soponpongpipat, N. et al.: Investigation of the Startup Condition of a Closed -Loop Oscillating Heat Pipe. In Heat Transfer Engineering. [online]. 2009, vol 30, Issue 8, p. 626-642. ISSN 0145-7632.
http://www.amsmaterials.com/products/Fluorinert-FC%252d72.html International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Akachi, H.: Structure of a Heat Pipe, US Patent, No 4,921,041, 1990.
Baďurová, S. – Ponechal, R.: The comparative analysis of external walls in a passive house with respect to environment and energy. In: enviBUILD 2012, October 25th- 26th 2012, Brno, University of Technology. - Brno: VUT, 2012. - ISBN 978-80- 214-4600-7. - CD-ROM, s. 413-420.
Ďurica, P. -Baďurová, S. – Ponechal, R.: Energy and environmental evaluation of the selected wooden family houses . In: Communications : scientific letters of the University of Žilina. - ISSN 1335-4205. - Vol. 15, no. 1 (2013), s. 88-95.
Fasula: Oscillating heat pipes, Rhode Island: University of Rhode Island, May 2009, p. 46.
Groll, Khandekar: Roadmap to Realistic Modeling of Closed Loop Pulsating Heat Pipes. In 9th International Heat Pipe Symposium. Kuala Lumpur, Malaysia.
Reay, D. – Kew, P,: Heat Pipes Theory, Desing and Applications. UK: Fifth Edition, 2006, ISBN-13: 978-0-7506-6754-8
Qu, W. – Ma, H.B.: Theoretical analysis of startup of a pulsating heat pipe. I n: International Journal of H eat and Mass Transfer. 2006, vol. 50, Issues 11 -12, p. 2309-2316. ISSN: 0017-9310.
Soponpongpipat, N. et al.: Investigation of the Startup Condition of a Closed -Loop Oscillating Heat Pipe. In Heat Transfer Engineering. [online]. 2009, vol 30, Issue 8, p. 626-642. ISSN 0145-7632.
http://www.amsmaterials.com/products/Fluorinert-FC%252d72.html International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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