Solar PV that is on the roof of a life sciences building

The life sciences industry, leading in innovation and research, has a high demand for energy due to its operations.

Laboratories, biotech companies, and pharmaceutical businesses use a lot of energy for their equipment, storage needs and data centres, which are essential for advancements in health and science.

At the same time, there’s a growing focus on being more sustainable within the industry, motivated by environmental concerns and the goal to reduce carbon emissions. Solar PV provides a sustainable and effective way to meet these large energy needs.


The Case for Solar PV in Life Sciences 

Solar PV systems offer a sustainable option that matches the industry’s aim to reduce its environmental impact. By using solar energy, life sciences facilities can greatly reduce their dependence on fossil fuels, leading to lower greenhouse gas emissions and improving their corporate social standing.

Additionally, solar PV can lead to cost savings through reduced utility bills and the possibility of taking advantage of government incentives or rebates, which improves financial performance over time.

A consistent supply of energy is crucial in the life sciences sector, where experiments and the preservation of data must not be disrupted. Solar PV, especially when combined with storage solutions, can provide a steady power supply, ensuring the ongoing operation of essential tasks.

Adopting this technology shows life sciences organisations as leaders in sustainability and innovation as well as strengthening their reputation among stakeholders, customers and investors who are increasingly aware of environmental issues.


Implementing Solar PV Solutions in Life Sciences

Installing solar PV systems in the life sciences sector means placing solar panels on organisation buildings, directly lowering operational costs and carbon emissions. This method shows a commitment to sustainability by using solar power for energy needs.

Power Purchase Agreements (PPAs) provide a practical way for life sciences organisations to adopt solar energy without initial costs. These agreements let firms buy electricity from solar providers at set rates, offering financial stability and helping achieve sustainability targets.

Battery storage is also important in transitioning to this energy source. It keeps the energy supply constant, ensuring that life sciences operations can continue smoothly, even during power cuts or fluctuations. Combining solar PV with storage solutions is important for continuous operations, especially in areas where a reliable energy supply is crucial.

For companies that find it difficult to invest directly in solar infrastructure, Renewable Energy Certificates (RECs) offer another option. Buying RECs helps the renewable energy industry, allowing life sciences organisations to support clean energy growth indirectly. This method highlights the industry’s support for a sustainable future, even when direct solar adoption isn’t possible. By using these strategies, life sciences organisations can greatly improve their sustainability efforts while maintaining energy reliability and operational efficiency.


How We Can Help

At McGrady Clarke, we’re committed to helping the life sciences industry make an essential shift towards sustainable energy. Our dedicated team is well-versed in the specific challenges and opportunities in the life sciences sector, ready to assist your organisation in reaching its sustainability aims.

By choosing McGrady Clarke as your partner, life sciences organisations can confidently integrate solar PV into their operations, achieving a lower carbon footprint, driving innovation, maintaining operational excellence and enhancing their reputation among stakeholders.

Contact us today for expert advice on adopting solar PV technology.