Power Plant Mechanical Engineering

MEENA REVURI

**** ****** *****, *** #*** ● Dearborn, MI 48126 ● 313-***-**** ● *******@*****.***

Summary

Highly fervent Mechanical engineering student, pursuing Masters, with excellent interpersonal skills across all levels, powerful problem-solving, analytical and communication skills, enhanced capabilities in using CAD software and ANSYS workbench, to deal with the real time problems within healthy competitive environment, ensuring timely completion of projects, interested in pursuing an engaging position in the corporate setting to implement skills honed through years of engineering background. Highlights

Software skills: Auto CAD, ANSYS, Pro-E, CATIA, ANSYS Workbench 16.2, LMS Testing Lab, B&K PULSE. Quality tools: Lean Six sigma process improvements, Kaizen techniques. Work Experience

University of Michigan-Dearborn Dearborn-MI

Lab Assistant-Acoustics and Vibrations lab January 2016 to April 2016

Set up and run testing and experimental equipment in accordance with current good operating practices and SOPs.

Work under the Professor’s supervision to develop new projects to enhance the conceptual knowledge of students.

Research a variety of equipment, materials utilized in the noise testing and acoustics related experiments.

Maintain timely and accurate oral and written technical reports regarding assigned engineering activities.

Instruct and guide the students during the lab sessions by assisting them through experiments and CAE projects.

Demonstrate excellent mechanical knowledge of equipment and tools, including use, repair and maintenance.

Maintain thorough records of student attendances and grades.

Maintain safety by verifying compliance and assuring proper laboratory testing.

Expand technical skills through continuing education courses and outside seminars and training workshops.

Kothagudem Thermal Power Station India

Technical Intern April 2013 to June 2013

Acquired empirical knowledge in various design and working attributes of power plant engineering.

Collaborated with the power plant design engineer to implement operating procedures.

Analyzed the thermal and vibration details of HVAC systems including turbines and boilers. Education:

University of Michigan-Dearborn Dearborn-MI

Masters of Science in Mechanical Engineering September 2015 to April 2017 Relevant coursework: GPA: 3.56/4.0

Powertrain NVH of Electric vehicles, Fracture and fatigue considerations in design, Total quality management and six sigma, Acoustics and Noise control, Powertrains-1 Academic Projects:

Analysis of Non-linear systems: February 2016 - Present Developed the geometry of two different dampers used in modern cars and currently working on the experimental analysis of former non-linear bodies using CATIA and ANSYS workbench. Modal analysis of vehicle body chassis December 2015 Studied and developed a detailed report on global modes of vibration for an Aluminum Space Frame Chassis of a midsize passenger car, using CAD for design and Hyper Mesh for analysis. CAE projects under NVH using ANSYS workbench: August 2015 to April 2016 Designed and analyzed the formation of natural modes in different mechanical components, considering the criteria of natural frequency, resonance, stress intensity and geometrical elements. Determining the acoustical modes of an enclosure, Transmission losses of a muffler, Modal analysis of a steel frame are a part of these projects.

NVH testing lab: August 2015 to April 2016

Worked on NVH related lab projects which included FRF measurement, Modal analysis, Order tracking, Material Testing using Impedance tube, Sound Intensity Testing and analysis, Signature Acquisition, Reverberation chamber and Sound field identification using an SPL Meter. BAPATLA ENGINEERING COLLEGE Guntur-India

Bachelor of Technology in Mechanical Engineering April 2015; GPA: 3.7/4.0 Academic Project: December 2014- April 2015

Design and fabrication of robotic gripper by 3D-printing technology-KUKA Laboratory:

Developed an under-actuated, quickly interchangeable, adaptive gripper to hold wide variety of objects with improved simplicity and cut down manufacturing costs.

Successfully installed the same into a working KUKA robot and used it for the purpose of demonstration and collaboration of industrial robotic functions.

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