Solar PV arrays, power infrastructure, and smart grid engineering concepts

Renewable Energy | Solar PV | Power Systems

Engineering a Sustainable Future Through Innovation, Renewable Energy, and Practical Solutions.

I am an Electrical and Electronic Engineer passionate about renewable energy systems, solar PV design, power distribution, and creating technologies that improve lives and strengthen communities.

Electrical & Electronic Engineer | Renewable Energy Enthusiast | Building Sustainable Energy Solutions for the Future

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Solar PVDesign, sizing, integration, lifecycle research, and performance analysis

Power SystemsDistribution, protection, reliability, and infrastructure planning

Sustainable InfrastructurePractical systems that support communities, circularity, and economic growth

About Me

Engineering shaped by purpose, community, and practical impact.

Engineering, to me, is more than the application of technical knowledge; it is a means of creating lasting solutions that improve lives and strengthen communities. Studying Electrical and Electronic Engineering has deepened my understanding of power systems, electrical design, renewable technologies, and the critical infrastructure that supports modern society. I am particularly passionate about renewable energy and sustainable infrastructure because they represent some of the most important challenges and opportunities of our time. Reliable access to energy has the power to transform communities, drive economic growth, and create opportunities for future generations.

My ambition is to contribute to the development of innovative, resilient, and sustainable energy systems that help shape a better future. I believe engineering carries a responsibility beyond technical achievement, it is about applying knowledge with purpose, solving real-world problems, and creating solutions that endure. Whether through renewable energy, infrastructure development, or emerging technologies, I am driven by the opportunity to make a meaningful impact and help build a world where progress, sustainability, and human potential can thrive together.

Technical Capability

Skills across energy systems, design tools, and engineering analysis.

Electrical Engineering

Power Systems
Electrical Design
Protection Systems
Renewable Energy Systems

Renewable Energy

Solar PV Design
Off-Grid Systems
Battery Energy Storage
Energy Modelling

Software & Tools

MATLAB
Simulink
PVsyst
RETScreen
Cisco Packet Tracer
AutoCAD

Engineering Analysis

Technical Reporting
System Optimisation
Research & Development
Project Planning

Featured Projects

Applied renewable-energy work with practical engineering outcomes.

End-of-life solar panels prepared for recycling research

Solar Panel Recycling Supply Chain Research

Intern research project commissioned by Brighton Energy Cooperative exploring end-of-life solar panel recycling, supply chain pathways, costs, processes, and material recovery opportunities.

BECSolar RecyclingSupply Chain

Results achieved

Examined recycling facilities, initiation procedures, cost considerations, recyclable material destinations, and practical methods for improving solar PV end-of-life management.

Download Research

Fence-integrated solar PV system in a port environment

Fence-Mounted Solar PV System at Newhaven Port

A research project investigating the optimisation of fence-integrated photovoltaic systems for renewable energy generation and battery charging applications.

Solar PVBattery ChargingOptimisation

Results achieved

Assessed installation constraints, energy yield potential, and practical integration routes for port-side renewable generation.

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Off-grid solar PV system for a community energy hub

Off-Grid Solar PV Community Design

Design and sizing of a complete off-grid solar system including solar panels, battery storage, MPPT controllers, protection systems, and energy analysis.

Off-Grid PVMPPTProtection

Results achieved

Produced a resilient system architecture for reliable local power, storage autonomy, and maintainable community infrastructure.

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Battery Storage Research

Research into battery energy storage technologies including lithium-ion, second-life batteries, and community energy storage solutions.

Lithium-ionSecond LifeStorage

Results achieved

Explored storage technology pathways that can improve renewable reliability, peak management, and community-scale resilience.

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Engineering Blog

Ideas, research notes, and field observations from clean-energy engineering.

Renewable Energy

Designing renewable infrastructure for real communities

Notes on translating energy ambition into maintainable systems, local capacity, and long-term reliability.

Solar PV Systems

What happens to solar panels at end of life?

A practical look at recycling pathways, material recovery, costs, and the circular economy behind solar PV.

Power Engineering

Power systems thinking for sustainable development

How distribution, protection, and planning decisions affect the success of energy projects.

Smart Grids

The role of data in future grid resilience

Smart monitoring, forecasting, and control can make renewable-heavy systems stronger.

Engineering Career Development

Building credibility as an early-career engineer

Reflections on research, placements, technical writing, and project ownership.

Sustainability

Energy access as infrastructure for opportunity

Why sustainable energy work matters beyond electricity generation alone.

My Vision

Reliable and sustainable energy infrastructure for the next generation.

My long-term vision is to contribute to the development of resilient and sustainable energy systems that empower communities, drive innovation, and support lasting economic progress. I believe access to reliable energy is one of the foundations of human advancement, and that renewable technologies will play a defining role in shaping a more sustainable, connected, and prosperous future for generations to come.

Experience

Electrical & Electronic Engineering Student

Developing a strong technical foundation in electrical systems, electronics, power engineering, and engineering analysis.

Design Engineering Placement

Contributing to design-focused engineering work with attention to documentation, standards, analysis, and practical delivery.

Renewable Energy Research Projects

Investigating solar PV integration, off-grid energy systems, solar panel recycling, and practical renewable solutions for infrastructure contexts.

Battery Research Volunteer Work

Supporting research into battery technologies, second-life applications, and community energy storage opportunities.

Testimonials

Professional feedback from supervisors, lecturers, and colleagues.

Kelvin brings careful technical thinking and a clear commitment to renewable-energy engineering. His work shows curiosity, discipline, and purpose.
Project Supervisor

He approaches engineering problems with maturity, communicates his reasoning clearly, and is motivated by practical impact.
Engineering Lecturer

Kelvin is dependable, thoughtful, and focused on building solutions that can make a meaningful difference in communities.
Engineering Colleague

Contact

Let’s connect on renewable energy, engineering design, and sustainable infrastructure.

For project discussions, research collaboration, placement opportunities, or professional enquiries, send a message or connect through the links below.

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