With 12,500 properties worldwide, measures are being taken on existing properties to achieve the 2050 climate target, with the integration of solar energy playing a central role.
Due to the considerable roof areas of DHL’s large warehouse buildings, substantial solar installations can be installed there, enabling DHL to maximize the use of solar energy on the properties.

“Everything we do is geared towards achieving zero emissions by 2050. We have a clear policy on solar energy – every location is screened for solar potential. For existing locations, factors such as the size of the property and the length of the lease are taken into account when considering solar installations. However, we install solar panels on all new sites,” says Jussi Jylhä, Infrastructure Manager, Operations at DHL Supply Chain (Finland) Oy.

Locally generated energy also offers marketing advantages

Currently, 56% of DHL’s energy comes from renewable sources, 94% of the electricity it uses is predominantly green. With the goal of energy self-sufficiency and locally generated electricity, DHL is installing solar panels on every property.

In Pirkkala, DHL owns a property of approximately 4,000 square meters, where Solnet Group installed a solar energy system in 2019. DHL was involved in the tender for this project, but an external contractor managed the construction of the building. Solnet Group then worked with the construction company.

Also interesting: Virtual power plant for solar companies to participate in balancing markets

“It is crucial for us to meet our emissions targets while also generating electricity right on site. We have also noticed the marketing benefits of solar energy in building our brand. For example, we use pictures and videos of our Pirkkala site in our sales materials,” mentions Jussi Jylhä.

Security as top priority

When selecting partners for the Pirkkala project, security was already an important factor. Since then, security has become even more important and is clearly one of the most influential factors in decision-making. Solnet Group’s intelligent solar system, with remote management and the ability to disconnect power to the panels, were deciding factors.
“The security features and credentials of the Solnet Group solution convinced us, along with its price-performance ratio and suitable guarantees. In addition, Solnet provides production data displayed on screens in our lobby, which generates positive feedback and makes the solar installation visible. Despite its size, the solar array is not visible from the roof, so this way we can demonstrate its effect in reducing emissions and generating electricity,” Jylhä points out.

Also see: Best possible utilisation of a logistic property for PV

As advice for those implementing solar arrays for the first time, Jylhä recommends bringing in an experienced consultant. A company that understands the variables that affect yields and system size, and knows the technical specifications.

“If you have a reliable partner and a solar plant has been built with high-quality equipment, it is relatively maintenance-free to operate. Solnet Group does maintenance once or twice a year. We monitor and report on the system’s output ourselves, and Solnet Group handles maintenance and monitors operations at the panel level. Integrating production overview has also been effortless,” Jylhä emphasizes. (hcn)





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The platform, developed by Solnet Group, allows commercial and solar utilities to join a collective pool of virtual power plants, enabling them to participate in balancing markets, contribute to greater grid stability, and earn additional revenue. Companies participating in the virtual power plant network receive compensation for being on standby and providing production flexibility.

The fluctuating production of renewable energy sources and geopolitical uncertainties such as Russia’s potential hybrid influence on electricity markets have led to increased volatility in energy prices and instability in electricity markets. Optimal operation of the electricity grid and increasing reserve market capacity are also nationally significant. Solar utilities and energy storage units can play a crucial role in grid balancing services, helping counteract the variability of renewable energy generation and generating extra income for participants.

Great potential – new European of Buildings Directive

Now smaller commercial solar utilities and variable-capacity energy storage can also take part. Solnet Manager is launching first in Finland, with planned subsequent markets including the Netherlands and Germany.

Also interesting: Companies use electricity from a shared solar plant with virtual PPA

There is great potential for this new solution. The provisions for solar power in the European Performance of Buildings Directive confirmed by the EU in March 2024 will further increase the number of industrial and commercial onsite solar installations. The directive requires the installation of onsite solar power systems across Europe on all new commercial and public buildings by 2026, on all commercial and public buildings undergoing major renovations by 2027, on all new residential buildings by 2029, and on all existing public buildings by 2030.

Service model of Solnet

Solnet Manager controls a diverse pool of solar utilities and energy storage units as a virtual power plant, optimizing the flexible renewable capacity to provide auxiliary services. The platform handles all necessary services, including participation, reporting, aggregation of combined virtual power plant capacity, and targeting of balancing markets to maximize profitability.

Also interesting: Sonnen and Nibe begin integration of heat pumps into the German grid

Under a service model, Solnet Group takes care of the logistics, from device integration and onboarding to management and report generation. Business Finland has provided funding for the project in its research phase. (hcn)





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