A techno-economic analysis of cost savings for retrofitting industrial aerial coolers with variable frequency drives

Abstract A techno-economic model was created in order to develop curves that show the typical annual energy savings, rate of return, and payback for retrofitting aerial coolers with variable frequency drives (VFDs) for up to 50 motors, motor sizes from 4 to 186 kW (5–250 hp), and varying climate conditions. The cost savings due to installing a VFD depends on the reduction in energy used, as well as the reduction in power demand, the capital cost of the VFD, installation cost of the VFD, change in operating cost, and cost of electricity. The geographic locations examined in this report were Fort McMurray, Calgary, Vancouver, and Thunder Bay. This study found that the IRR increases rapidly with motor size, becomes greater than 10% at a motor size of approximately 15 kW, and may be as high as 220% (for the case of fifty, 186 kW motors). The IRR is sensitive to the number of fan motors retrofitted with VFDs, however the sensitivity rapidly declines as the number of motors is increased beyond five. The simple payback period becomes less than 1 year and nearly independent of number of motors and motor size for motors larger than 90 kW. Ambient temperature and geographic location affect the profitability of the investment, although the IRR only changes by approximately 4%.

[1]  M. Barak,et al.  Effect on energy use and greenhouse microclimate through fan motor control by variable frequency drives , 2004 .

[2]  Engin Özdemir,et al.  Energy Conservation in Boiler House by Using Variable Speed Control , 2004 .

[3]  Matthew H. Naitove Cooling in Tough Times: How to Save Energy & Maintenance , 2009 .

[4]  V. Rich Personal communication , 1989, Nature.

[5]  Edoardo Garibotti Energy savings and better performances through variable speed drive application in desalination plant brine blowdown pump service , 2008 .

[6]  E. C. Smith AIR-COOLED HEAT EXCHANGERS , 1958 .

[7]  K. Nageswara Rao,et al.  Energy saving through VFDs for fan drives in tobacco threshing plants , 2000, Proceedings of IEEE International Conference on Industrial Technology 2000 (IEEE Cat. No.00TH8482).

[8]  Hossein Madadi Kojabadi,et al.  A comparative analysis of different pulse width modulation methods for low cost induction motor drives , 2011 .

[9]  John Dieckmann,et al.  Variable Frequency Drives, Part 1: The Technology Does Energy Savings Trump Costs? , 2010 .

[10]  F. W. Yu,et al.  Economic benefits of improved condenser features for air-cooled chillers serving an air-conditioned hotel , 2006 .

[11]  Mingsheng Liu,et al.  Retrofit Constant Speed Fan Laboratory Exhaust Systems Using Multi-Stack and Variable Frequency Drive Techniques , 2004 .

[12]  Saad Mekhilef,et al.  A review on energy saving strategies in industrial sector , 2011 .

[13]  Mikko Lönnberg Variable Speed Drives for energy savings in hospitals , 2007 .