K.KARIMULLAH KHAN

H.NO: **/***, Narasimha Reddy Nagar, Kurnool, A.P. – 518004

Contact: +91-779*******; Email Id: ac0els@r.postjobfree.com; DOB: 28-Oct-1992.

MECHANICAL ENGINEER

Seeking a challenging and rewarding opportunity in Thermal power plants, Maintenance, Production, Manufacturing and Design with an organization of repute which recognizes and utilizes my true potential while nurturing my technical skills.

PROFILE

Qualified M.E (Thermal Sciences and Energy Systems) from G.Pulla Reddy Engineering College affiliated to JNTU Ananatpur; determined to carve a successful and satisfying career in the industry.

Knowledge of Thermodynamics, Refrigeration and Air Conditioning, Heat Transfer, and Thermal Power Plant Engineering, Strength of Materials.

Technical Skills

Design tools AutoCAD, CATIAV5, and ANSYS.

Programming Language C.

Operating systems Windows XP/7/8.

EDUCATIONAL CREDENTIALS

M.E Thermal, Dec 2016

G.Pulla Reddy Engineering College, Kurnool, JNTU-ANANTAPUR, 7.98 (CGPA)

B.E Mechanical 2014

Kottam Karunakar Reddy Institute of technology, Kurnool, JNTU-ANANTAPUR, 74.02%

INTERMEDIATE 2010

Master’s Junior College, Board of Intermediate, 86.6%

SSC 2008

K.N.R. English Medium High School, Board of Secondary Education, 74.5%

IMPERIAL JOURNAL OF INTERDISCIPLINARY RESEARCH (IJIR)

Experimental Investigation of Helical Baffles Shell and Tube Heat Exchanger Using Aluminium Oxide (II) Nanoparticle. Vol-2, Issue-11, 2016.

INDUSTRIAL VISITS

Green Energy Thermal Power plant, Kurnool.

Work Shop Attended

Robotics : G.Pulla Reddy Engineering College, Kurnool.2011

Aircraft modeling Organized in Kottam Tulasi Reddy College of engineering, Kurnool, 2013.

PROJECTS UNDER TAKEN AS A PART OF ACADEMIC CURRICULUM

M.E PROJECT

Title : Experimental Investigation of shell and tube heat exchanger using

Aluminium oxide as nano fluid.

Role : Designed and done fabrication.

Description : The project consists of the thermal analysis of a helical baffled heat exchanger, modified to estimate the results for different flow rates at a fixed helical angle of 5, 10, 15, 20 . The flow pattern in the shell side is rotational & helical due to the geometry of continuous helical baffles. This flow pattern, at a certain different helical angles, results in significant increase in the heat transfer coefficient, however at the cost of lower pressure drop. And also using aluminium oxide(ii) nanoparticle with two different volume concentrations 0.05% and 0.1% .The results are evaluated in terms of heat transfer rate, shell side and tube side heat transfer coefficient, over all heat transfer coefficient heat, transfer area and effectiveness

B.E PROJECT

Title : Making a Spot Welding Machine with Low Cost

Role : Team Leader.

Description : Generally Spot Welding equipment’s are quite expensive, occupies larger area and they are of immovable in nature. Because of their immovability, whatever requires welding need to be taken to the premises of Spot welding equipment. In this Project, we have made spot welding equipment at low cost which is of portable in nature. The main advantage of this is that because of its portability it can be handled easy, requires less space and can be used to weld parts at required angles and desired shapes.

Date : 02-05-2017 (k.karimullah khan)

Place : Hyderabad.

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