Join our Low Carbon Technology Planning & Design Apprenticeship and help shape the transition to a greener future. You’ll gain hands-on experience supporting the connection of technologies like electric vehicle charge points, heat pumps, and solar panels to our network. As an apprentice, you’ll learn to: • Assess customer applications for Low Carbon Technology (LCT) connections • Carry out initial desktop studies to determine feasibility • Support network studies and assist in designing low voltage connections • Prepare valuations and quotes for domestic LCT installations • Ensure designs are cost-effective and compliant with technical standards • Communicate proactively with customers and delivery partners • Contribute to accurate forecasting and data integrity • Deliver excellent customer service throughout the connection journey Join ENW’s mission to drive the transition to net zero. As a Low Carbon Technology Planning & Design Apprentice, you’ll gain hands-on experience and formal qualifications while learning to plan and design sustainable energy solutions. What you’ll learn: • Principles of low-carbon systems: solar PV, EV charging, battery storage, and heat pumps • Network planning, design tools (CAD/GIS), and sustainable engineering practices • Health & safety, industry regulations, and environmental standards • Communication, teamwork, and problem-solving skills Training & development: • A structured apprenticeship with on-the-job learning and college study • Specialist training at ENW’s Academy and mentoring from experienced engineers • Industry-recognised Level 4 qualification and clear progression opportunities Be part of shaping a cleaner energy future with ENW. On completion, you’ll have the opportunity to secure a permanent role with Electricity North West and progress into positions such as Design Engineer, Project Engineer, or Low Carbon Technology Specialist. With the UK’s growing focus on net zero and sustainable energy, your skills will be in high demand — offering strong career growth and long-term stability in the low-carbon and power network sectors.