Summary
Work History
Education
Skills
Timeline
Academic Projects
Generic

DHEERAJ BHAVANA

Oxford

Summary

Highly motivated Electrical and Electronics Engineering graduate with a Master's in International Business Management, eager to launch a career in the engineering sector. Possessing a strong foundation in power systems, renewable energy, and circuit design, demonstrated through a valuable internship at ONGC-India in solar PV plant operations and academic projects in DC power quality and hybrid renewable energy system optimization using HOMER Pro. A quick learner with an analytical mindset and proven problem-solving abilities, seeking to leverage technical skills and a goal-oriented approach to contribute to innovative engineering solutions.

Work History

Intern

ONGC
06.2018 - 07.2018
  • Supported solar energy system operations and maintenance, including PV plant installation, commissioning, and grid integration.
  • Monitored String Monitoring Units (SMUs) and lightning protection systems to ensure optimal energy output and plant safety.
  • Assisted with solar cell and earthing system maintenance for efficiency optimization and critical equipment protection.

Education

Master of Science - International Business Management

Oxford Brookes University
09.2023

Bachelor of Science - Electrical and Electronics Engineering

SRM Institute of Science and Technology
11.2019

Skills

  • Teamwork and collaboration
  • Problem-solving
  • Multitasking and organization
  • Goal-oriented mindset
  • Attention to detail
  • Quick learner
  • Analytical mindset

Timeline

Intern

ONGC
06.2018 - 07.2018

Bachelor of Science - Electrical and Electronics Engineering

SRM Institute of Science and Technology

Master of Science - International Business Management

Oxford Brookes University

Academic Projects

Project Title: Optimizing DC Power Systems: A Ripple Eliminator Circuit to Enhance Power Quality and Reduce Component Failure | [SRM University] | [ 11/2018 - 06/2019 ]

  • Engineered a ripple eliminator circuit to improve the power quality of DC systems by effectively mitigating voltage ripples.
  • Reduced the number of electrolytic capacitors required for the circuit, directly addressing their potential to cause intense system damage and increase system longevity.
  • Contributed to a more compact and reliable DC power system design by minimizing the use of bulky components.


Project Title: Optimization of a Hybrid Renewable Energy System (HOMER Pro) | [SRM University] | [ 01/2018 - 03/2018 ]

  • Optimized hybrid renewable energy systems for buildings using HOMER Pro, balancing diverse components (solar PV, wind, battery) to meet load demands.
  • Conducted load profile analysis and techno-economic assessments (NPC, LCOE) to design cost-effective and efficient energy solutions.
DHEERAJ BHAVANA