Reframing the UK’s Green Energy Transition

What we are witnessing is not a failure of green technology, but a failure of the delivery system. We are forcing 21st-century environmental mandates onto an archaic, crippled grid that was never designed for decentralised, integrated power. 

Over the weekend, The Guardian released an insightful visual analysis on the state of clean energy in the UK. 

The article highlights a critical reality: there is a staggering gap between the government’s 2030 clean power ambitions and the reality of getting projects from ‘approval’ to ‘operation’.

The piece features a compelling case study on the Viking Energy windfarm – which took over 15 years to reach operation – as a primary illustration of the complex, lengthy, and often contradictory planning processes that developers currently face.

While the article is a strong and technically sound report on the symptoms of our current energy malaise, it stops short of diagnosing the disease; by framing the issue as a failure of green projects to deliver on lower household bills, the narrative risks obscuring the systemic infrastructure debt we are collectively paying.

What we are witnessing is not a failure of green technology, but a failure of the delivery system. 

We are forcing 21st-century environmental mandates onto an archaic, crippled grid that was never designed for decentralised, integrated power. 

When you couple this with rising construction costs and a grid queue that has historically prioritised “zombie projects” over shovel-ready schemes, it is clear that developers are hitting a systemic bottleneck. 

The issue isn’t that the energy isn’t green or cheap; it’s that the delivery infrastructure is archaic and the conditions developers must operate under are fundamentally broken.

But there is a gaping hole in The Guardian’s narrative: the role of Energy from Waste (EfW) and Anaerobic Digestion (AD).

While the article focuses on intermittent volume, our national energy crisis is one of system stability. 

We need a dispatchable baseload – the kind of 24/7 reliability that EfW and AD plants provide; once you turn an AD plant on, it is designed for continuous operation. 

By leaving these facilities out of the conversation – especially when fitted or retrofitted with CCUS technology – we are ignoring the most efficient, carbon-negative tools currently at our disposal.

We aren’t failing because green energy is too expensive; we are failing because we are forcing it into a grid that lacks the dispatchable, carbon-negative backbone required to stabilize it, alongside the physical capacity to carry it.

On top of this, we lack the processes necessary to ensure shovel-ready projects are prioritised, supported, and valued. 

For green energy projects to successfully lower household energy bills long-term, we need a policy shift that prioritises infrastructure stability over political targets. 

It is time we stop blaming the projects and start fixing the system.

Paul Winter
Paul Winter

Paul is the founding Director of Paul Winter Consulting which he formed in 2015. He is particularly focused on helping Clients understand the Construction Process and help them maximize their returns on investment. He has worked at senior level in Major International Companies and his experience ranges from the construction of Complex infrastructure projects from Power to airports and Roads For the last 15 years Paul has provided support to a number of clients including: - EPC Contractors - European Companies looking to enter the UK Market - Client side Project Management - Commercial and Project Management Training - Advising on Project funding He is focused on developing strategies for investment in Energy from Waste Projects and delivering the financial outcomes through effective project management

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One comment

  1. Thank you for sharing this post. A really important discussion.

    As the UK works towards clean power, Energy from Waste and Anaerobic Digestion should be part of the conversation, particularly around reliable, dispatchable energy, grid stability and a more balanced energy mix

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