70
7 Bibliography
1. Eskom. Financial Results. [Online] 27 June 2011. [Cited: 28 01 2012.] http://financialresults.co.za/2011/eskom_ar2011/downloads/eskom-ar2011.pdf.
2. Refrigeration Plant and Mine Air Conditioning Systems. McPherson, Malcolm J. pp. 18-1, 18-71.
3. Demand-side energy management of a cascade mine surface refrigeration system. Schutte,
AJ. Pretoria : s.n., 2007.
4. Software process quality management and control. Ron S. Kennet, Emanuel R. Baker. s.l. : Taylor and Francis, 2003.
5. Minimization of operational costs in cooling water systems. M.M. Castro, T.W. Song,
J.M. Pinto. 2000, IChem, pp. 1-10.
6. A systematic approach of optimal cooling tower operation. Giorgia F. Cortinovis, Jose L.
Piava, Tah W. Song, Jose M. Pinto. 2009, Energy conversion and Management, pp. 1-10.
7. Energy efficiency by new control and optimisation of fridge plant systems. Pelzer R,
Mathews EH, Schutte AJ. Cape Town : s.n., 2010. Industrial and Commercial Use of
Energy.
8. Case study: Energy savings for deep-mine water reticulation system. Vosloo J,
Liebenberg L, Velleman D. 2012, Applied energy 92, pp. 328-335.
9. Reducing mine water network energy requirements. A.J. Gunson, Bern Klein, Marcello
Veiga, Scott Dunbar. 2010, Journal of Cleaner Production, pp. 1328-1338.
10. Economic benefits of optimal control for water-cooled chiller systems serving hotels in a
subtropical climate. F.W Yu, K.T Chan. 2010, Energy and Buildings, pp. 203-209.
11. Determination of the compressor optimal working conditions. C. Aprea, R. Mastrullo,
C. Renno. 2009, Applied Thermal Engineering 29, pp. 1991-1997.
12. A simplified black-box model oriented to chilled water temperature control in a variable
speed vapour compression system. J.A. Romeo, J. Navarro-Esbri, J.M. Belman-Flores.
2011, Applied thermal engineering, pp. 329-335.
13. Reseach & Development: Deep mine cooling energy optimisation investigation. Arndt,
D.C. Pretoria : TEMM International (Pty) Ltd, 2010.
14. International, Mc Quay. [Online] 2002. www.mcquay.com.
15. Industrial heat exchangers. Delta T Heat exchangers. [Online] 2012. [Cited: 03 08 2011.] www.deltathx.com/uploadsDocs/FoulingFactors.pdf.
71
17. A comprehensive design and performance evaluation study of counter flow wet cooling
towers. Jameel-Ur-Rehman Khan, Bilal Ahmed Qureshi, Syed M. Zubair. 2004, International journal of refrigeration, pp. 914-923.
18. Enhancing performance of wet cooling towers. Rafat Al-Waked, Masud Behnia. 2007, Energy Conversion and Management, pp. 2638-2648.
19. Energy Efficiency Guide for Industry in Asia. [Online] 2006. [Cited: 2011 06 2012.] www.energyefficiencyasia.org.
20. Evaporative Cooling Tower and Chilled Beams. Bergsten, Bengt. Göteborg, Sweden : Doktorsavhandlingar vid Chalmers tekniska högskola, 2009.
21. CFD simulation of wet cooling towers. Rafat Al-Waked, Masud Behnia. 2006, Applied thermal engineering, pp. 1-14.
22. Energy performance of a cooling plant system using the inverter chiller for industrial
building. Young-hak Song, Yasunori Skashi, Jurng-Jae Yee. 2007, Energy and buildings, pp. 289-297.
23. Bulk air cooling the optimum solution for turbine inlet air chilling. Kurt Liebendorfer,
Jim Furlong.
24. Design of the world's largest bulk air cooler for the Enterprise mine in northern
Australia. Brake, D.J. Brisbane : Mine ventilation Australia.
25. The design of spray chambers for bulk cooling of the air in mines. S.J. Bluhm, A.
Whillier. 1978, Journal of the South African institute of mining and metallurgy, pp. 1-9.
26. Chiller plant optimizer. [Online] 03 11 2011. [Cited: 01 12 2011.] www.coolenergytech.com.
27. Variable condenser water flow. Schwedler, Mick. 2007.
28. Fundamentals of Thermodynamics, sixth edition. Sonntag, Borgnakke, Van Wylen. Hoboken : John Wiley & Sons, Inc, 2003, pp. 383 - 450.
29. Heat transfer correlations for low approach evaporative cooling systems in buildings. B.
Costeloe, D.P. Finn. 2009, Applied thermal engineering, pp. 1-11.
30. Efficiency control in a commercial counter flow wet cooling tower. C.A.X. Marques,
C.H. Fontes, M. Embirucu, R.A. Kalid. 2009, Energy conversion and management, pp.
2843-2855.
31. Optimisation of water-cooled chiller system with load-based speed control. K.T Chan,