1. Digital To Analog TV Decoder design And Fabrication. (2018). 

D. W. Wekesa* K. Muchiri, M.K. Munji, J.N. Mutuku, :Digital To Analog TV Decoder design And Fabrication. (2018). IOSR Journal of Electronics and Communication Engineering (IOSR-JECE),13(5), 1st ser., 23-31.



2. A numerical analysis of unsteady inflow wind for site specific vertical wind turbine 


Wekesa D.W*., Wang C., Wei Y., Kamau J.N., Danao L.A. (2015): A numerical analysis of unsteady inflow wind for site specific vertical axis wind turbine: A case study for Marsabit and Garissa in Kenya. Renewable Energy. Oxford, England. Elsevier Science. Vol. 76. pp. 648-661.


3. Analytical and numerical investigation of unsteady wind for enhanced energy capture in a fluctuating freestream


Wekesa, D.W*., Wang C., Wei Y., Danao L.A. (2017): Analytical and numerical investigation of unsteady wind for enhanced energy capture within a fluctuating free-stream. Energy. Oxford, England. Elsevier Science. Vol. 121. pp. 854-864


4. Empirical and numerical analysis of small wind turbine aerodynamic performance in a plateau terrain in Kenya


Wekesa D.W*., Wang C., Wei Y. (2016): Empirical and computational analysis of small-scale wind turbine aerodynamic performance at a plateau terrain in Kenya. Renewable Energy. Oxford, England. Elsevier Science. Vol. 90. pp. 377-385


5. Experimental and numerical study of turbulence effect on aerodynamic performance of a small-scale vertical axis wind turbine


Wekesa D.W*., Wang C., Wei Y., Zhu W. (2016): Experimental and numerical study of turbulence effect on aerodynamic performance of a small-scale vertical axis wind turbine. Journal of Wind Engineering and Industrial Aerodynamics. Amsterdam, Netherlands. Elsevier Science. Vol. 157. pp. 1-14.


6. IEEE conference paper



Wekesa D.W*., Wang C., Wei Y., Kamau J.N. (2014):  Wind resource assessment and numerical simulation for wind turbine airfoils. Piscataway, USA. IEEE. Vol. 15. pp. 1-9


7. Influence of operating conditions on unsteady wind performance of vertical axis wind turbines operating within a fluctuating free-stream


Wekesa D.W*., Wang C., Wei Y., Danao L.A. (2014): Influence of operating conditions on unsteady wind Performance of vertical axis wind turbines operating within a fluctuating free-stream. Journal of Wind Engineering and Industrial Aerodynamics. Amsterdam, Netherlands. Elsevier Science. Vol. 135. pp. 76-89.



8. Numerical and experimental study of pressure-wave formation around an under water vehicle


Zhang X., Wang C*., Wekesa D.W. (2017): Numerical and Experimental Study of Pressure-wave Formation around an Under-water Ventilated Vehicle. European Journal of Mechanics-B/Fluids. Paris, France. Villas/Editions Elsevier.  Vol. 65. pp. 440-449.


9. Calibrated data logging instrumentation system for wind speed and direction measurements.

Wekesa D.W*., Kamau J.N., Mutuku J.N. (2013): Calibrated data logging instrumentation system for wind speed and direction measurements. Basic Research Journal of Engineering Innovation. Johannesburg, South Africa.  Basic Research Journals. Vol. 1. pp. 53-57.



10. Microcontroller-based data logging instrumentation system for wind speed and direction measurements.


Wekesa D.W*., Mutuku J.N., Kamau J.N. (2012). Microcontroller-based data logging instrumentation system for wind speed and direction measurements. Journal of Agriculture, Science and Technology. Nairobi, Kenya. JKUAT. Vol. 14. pp. 176-189.