Co-located - United Kingdom
Advanced development
Port Jackson Farm
- CAPACITY: 30 MW.
- HOMES POWERED: - GWh. annually
- CARBON SAVED: - tonnes over a 40 years
- LOCATION: Port Jackson, Selby YO8 8NE, UK
- DATE: 2024
Port Jackson - Co-located Solar & BESS
- 30MW Capacity
- 328,000 tonnes Carbon saved over the lifetime of the project
- 11,000 Homes powered annually
- 40 years Lifespan of project
Grenergy is proposing to build a co located 30MW Solar PV and 15MW Battery Energy Storage System
About the project
Our proposed solar farm would be located at Port Jackson Farm, Selby Road, Camblesforth, YO8, 8NE.
Port Jackson Farm would provide crucial energy services to the local electricity distribution network to ensure the supply of clean and cost-effective electricity to domestic, commercial and industrial users of the electricity network.
Being a co-located power plant, the on-site batteries will allow excess generation from the solar farm to be locally stored and distributed into the electricity network, ensuring power generated can be used to meet peak power demands.
Key Features
30MW Solar PV
Solar energy provides one of the cheapest forms of electricity in the UK – two times cheaper than nuclear and four times cheaper than gas. This makes it an essential technology to lower energy bills and to reach our Net Zero ambitions.
15MW Battery Storage Capacity
Capable of storing and discharging electricity to meet both local and national demand.
Low Visual Impact
Designed with minimal visual intrusion, incorporating screening and strategic landscaping where necessary.
Green Energy Support
The BESS will play a vital role in integrating renewable energy into the grid, reducing dependence on non-renewable sources.
Our Projects
Solar Farms and Food Production
It is often debated regarding the role solar farms play in the balance of national food security, as agricultural land is perceived to be lost for this purpose. However the following should be considered:
Minimal Land Use
To meet our net zero targets of 70GW of solar by 2035 just 0.3% of land in the UK is required (Solar Energy UK) – less than currently used for golf courses – 0.5% (Carbon Brief). In comparison, the land used for agriculture (food production) in the UK is 71% (DEFRA, 2022).
Continued Farming
Many solar farms continue to be used for agricultural purposes such as livestock grazing.
Climate Change
The biggest threat to food production is climate change and it is predicted that the amount of Best and Most Versatile (BMV) land could fall by 70% by 2050 (UK Food Security Report, 2021).
Soil Health Benefits
Solar farms can contribute to improved soil health by providing a break from intensive cultivation.
Biodiversity Gains
Biodiversity enhances the resilience, productivity and sustainability of agricultural systems. We will be achieving at least 10% BNG on site through planting native trees and species rich grass.
Economic Diversification
The additional revenue stream from solar farms help farmers continue traditional agricultural practices on their remaining land.
Farming Sustainably Report
Solar Energy UK recently carried out a survey highlighting that many British farmers are successfully diversifying their land use by installing solar PV on their land to increase resilience in the face of climate change
Structure of a Co-located Farm
Indicative Timeline for Port Jackson Farm
FAQs
We need solar farms as a vital part of the UK’s energy strategy. They provide a clean, fossil-fuel-free source of electricity and are one of the most affordable energy options available. Solar power is four times cheaper than gas and twice as affordable as nuclear, making it a key solution for reducing energy costs. The UK Government has committed to reducing greenhouse gas emissions to 100% below 1990 levels by 2050, achieving Net Zero. Solar power plays a critical role in meeting this target.
The solar panels themselves are silent, but the inverters produce a low humming sound, similar to an air conditioning unit. To address this, we include a Noise Impact Assessment with every planning application. This assessment evaluates the noise levels in relation to the nearest sensitive receptors to ensure minimal impact on the surrounding area.
We use Battery Energy Storage Systems (BESS) to store renewable energy, such as solar and wind, and release it when power is most needed. While their primary function is to capture surplus clean electricity and discharge it later, they also provide essential grid stability services. For example, they help us manage voltage and frequency imbalances caused by fluctuations in renewable energy generation.
Across the UK, we lose large amounts of renewable energy, like wind and solar, when we cannot immediately use it because we lack sufficient storage capacity. To meet the UK’s net-zero goals and reduce dependency on fossil fuels, it is essential to expand BESS capacity. Battery energy storage systems ensure a stable and efficient electricity supply, especially during the transition to renewable sources. By storing energy when production is high and releasing it when demand increases, they help balance the grid, reduce CO₂ emissions, and minimize operational costs. Additionally, they enhance the resilience of the electrical system, providing backup during critical moments and facilitating the secure integration of solar and wind energy, ensuring a more sustainable energy future.
The batteries themselves produce very little noise, however, cooling fans are required to maintain the batteries at the correct temperature which emit some noise. With any planning application a detailed Noise Assessment is completed to ensure the plant causes no detriment to local sound levels.
We are dedicated to increasing biodiversity through the planting of native species, including wildflowers, hedgerow restoration, and woodland creation, all aimed at supporting local wildlife and habitats. In addition, we offer community benefits that will directly support local causes and organizations, ensuring meaningful investment in the community.
We are committed to minimizing traffic impacts during the construction period through careful route planning and traffic management. Once the site becomes operational, traffic will reduce significantly, averaging only 1–2 vans per week. A full Construction Transport Management Plan will accompany our planning application.