2020 International Symposium on New Energy and Electrical Technology（ISNEET 2020）

Welcome Assoc. Prof. Bukhari Manshoor from Universiti Tun Hussein Onn Malaysia to be committee member!

Welcome Assoc. Prof. Bukhari Manshoor from Universiti Tun Hussein Onn Malaysia to be committee member!

Bukhari Manshoor 116x160.jpg

Assoc. Prof. Bukhari Manshoor from Universiti Tun Hussein Onn Malaysia

Research Area:

- Flow Measurement

- Mixture Formation

- Combustion Process, Characteristics and Emissions Production

- Computational Aeroacoustic (CAA)

- Computational Fluid Dynamics (CFD)

Research experience:

PROFESIONAL CERTIFICATE/PROFESIONAL MEMBERSHIP

- Chartered Engineer, Engineering Council, United Kingdom (Reg. No: 662848)

- Professional Technologies, Malaysia Board of Technology (MBOT) (PT19030148)

- Member of The Institution of Engineering and Technology (IET) (70996226)

- Member of Technological Association of Malaysia (TAM) (M 7475)

- Graduate Engineer, Institute of Engineer Malaysia (IEM) (22054 - since 2012)

- Member of International Association of Engineers (IAENG) (108681 – since 2010)

RESEARCH AND CONSULTANCY ACTIVITIES

- Leader: Assessment of Hybrid RANS/LES Simulation in Computational Aeroacoustics by

using DNS Data, Collaboration Research UTHM, Tohoku University Japan and Mississippi

State University, USA (Under post-doctoral research scholarship)

- Leader: Effect Of Fractal-Grid Generated Turbulence On The Structure Of Premixed Flames

For Low Pollutant Emissions In Combustion, ERGS Vote E033 (2013-2016)

- Leader: New external combustion regimes - Exploration on the new concept of rapid NGF-

water-air premixing injector in burner system for SMEs in Malaysia, MTUN-CoE grant, Vote:

C010 (2012-2014)

- Leader: Sustainable non-traditional machining process for composite tool, MTUN-CoE

grant, Vote: C027 (2012 - 2014)

- Leader: A new approach in determine of the coefficient of variation (COV) for internal

rapid mixing using a space filling circle grid fractal for improving a combustion burning

limits, FRGS Vote: 1056 (2012-2014)

- Co-Researcher: Combustion heat release rate of retrofit mono-gas combustion using new

injection strategies, FRGS Vote: 1055 (2012-2014)

- Co-Researcher: Exploration the New Concept of Mixture Formation during Early Stage of

Burning Process in Bio-Diesel Combustion, FRGS Vote: 1055 (2012-2014)

- Leader: Improvement of Pump Performance using Reverse Engineering Process , Short

Term Grant, (2007-2008)