Academic Profile : Faculty

mktooi_1_2.JPG picture
Prof Ooi Kim Tiow
Chair, School of Mechanical & Aerospace Engineering
Professor, School of Mechanical & Aerospace Engineering
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Journal Articles
(Not applicable to NIE
staff as info will be
pulled from PRDS)
Highly Cited:
Tong, B. Y., Wong, T. N., & Ooi, K. T. (2001). Closed-loop pulsating heat pipe. Applied Thermal Engineering, 21(18), 1845-1862.

Xu, B., Ooti, K. T., Wong, N. T., & Choi, W. K. (2000). Experimental investigation of flow friction for liquid flow in microchannels. International Communications in Heat and Mass Transfer, 27(8), 1165-1176.

Gao, Y., Wong, T. N., Yang, C., & Ooi, K. T. (2005). Two-fluid electroosmotic flow in microchannels. Journal of Colloid and Interface Science, 284(1), 306-314.

Chong, S. H., Ooi, K. T., & Wong, T. N. (2002). Optimisation of single and double layer counter flow microchannel heat sinks. Applied Thermal Engineering, 22(14), 1569-1585.

Xu, B., Ooi, K. T., Mavriplis, C., & Zaghloul, M. E. (2002). Evaluation of viscous dissipation in liquid flow in microchannels. Journal of Micromechanics and Microengineering, 13(1), 53-57.

Das, R., & Ooi, K. T. (2013). Predicting multiple combination of parameters for designing a porous fin subjected to a given temperature requirement. Energy Conversion and Management, 66, 211-219.

Ooi, K. T., & Wong, T. N. (1997). A computer simulation of a rotary compressor for household refrigerators. Applied Thermal Engineering, 17(1), 65-78.

Gao, Y., Wong, T. N., Yang, C., & Ooi, K. T. (2005). Transient two-liquid electroosmotic flow with electric charges at the interface. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 266(1-3), 117-128.

Ooi, K. T. (2005). Design optimization of a rolling piston compressor for refrigerators. Applied Thermal Engineering, 25(5-6), 813-829.

Teh, Y. L., & Ooi, K. T. (2009). Theoretical study of a novel refrigeration compressor–Part I: Design of the revolving vane (RV) compressor and its frictional losses. International Journal of Refrigeration, 32(5), 1092-1102.

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Recent Publication:
Shao, H., Xu, Z., Liang, Z., Zhao, Q., Ooi, K. T., & Wang, Y. (2022). Numerical investigation on the thermal-hydraulic performance of separated structure steam generator with different tube arrangements. Annals of Nuclear Energy, 171, 109034.

Choo, W. C., & Ooi, K. T. (2022). Analysis of the novel multi-vane Revolving Vane compressor–Investigation of vane chattering phenomenon through instantaneous working chamber pressure measurements. International Journal of Refrigeration, 134, 207-218.

Heng, K. R., Ooi, K. T., & Chan, W. K. (2022). Experimental study of an oil-free swing vane compressor. International Journal of Refrigeration, 134, 95-104.

Choo, W. C., & Ooi, K. T. (2021). Analysis of the novel multi-vane Revolving Vane compressor–Theoretical modelling and experimental investigations. International Journal of Refrigeration, 131, 592-603.

Aw, K. T., & Ooi, K. T. (2021). Leakage study of a lubricant-free revolving vane compressor. International Journal of Refrigeration, 124, 122-133.

Kai Xian Cheng, Zi Hao Foo, Kim Tiow Ooi. (2020). Heat transfer enhancement through periodic flow area variations in microchannels. International Communications in Heat and Mass Transfer, 111, 104456.

Pradeep Shakya and Kim Tiow Ooi. (2020). Introduction to Coupled Vane compressor: mathematical modelling with validation (https://doi.org/10.1016/j.ijrefrig.2020.01.027). International Journal of Refrigeration, 117, 23-32.

Zi Hao Foo, Kai Xian Cheng, AikLing Goh, KimTiow Ooi. (2018). Single-phase convective heat transfer performance of wavy microchannels in macro geometry. Applied Thermal Engineering, 141, 675-687.

Chong, WH (Chong, Wen Han); Huang, Y (Huang, Yi); Wong, TN (Wong, Teck Neng); Ooi, KT (Ooi, Kim Tiow); Zhu, GP (Zhu, Gui-Ping). (2018). Magnetic Nanorobots, Generating Vortexes Inside Nanoliter Droplets for Effective Mixing. Advanced Materials Technologies, 3(4), 1700312.

Kai Xian Cheng, Yi Sheng Chong, Kim Tiow Ooi. (2018). Thermal-hydraulic performance of a tapered microchannel. International Communications in Heat and Mass Transfer, 94, 53–60.
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