Johan Cruijff Arena is about more than soccer – much more. It's a high-tech testbed for all manner of cutting-edge innovations. Because of this, it's one of the most sustainable spots in Europe. Picture solar panels, super-green energy storage and perhaps our favorite eco-friendly initiative: onsi Contact online >>
Johan Cruijff Arena is about more than soccer – much more. It''s a high-tech testbed for all manner of cutting-edge innovations. Because of this, it''s one of the most sustainable spots in Europe. Picture solar panels, super-green energy storage and perhaps our favorite eco-friendly initiative: onsite vehicle-to-grid charging.
The stadium opened in 1996 to serve as the new home of the top-tier Dutch soccer team AFC Ajax, which had outgrown its former facility. Being Amsterdam''s main stadium, many concerts also take place at the venue; The Rolling Stones, Genesis, Madonna and Beyoncé have all graced the stage.
The arena was always a beacon for innovation thanks to its dynamic, multifunctional design which includes a retractable roof. As the metropolis that surrounds it began to embrace the Smart City concept by implementing sensors and smart energy management, so did the stadium. Today, the facility operates with an energy carbon footprint of zero, accomplishing a bold and important mission. Here’s what makes it possible.
The arena is a prime example of sustainability at scale. Consider the huge solar-plus-storage system: over 4,200 rooftop solar panels forming part of a one-megawatt (MW) system supply the stadium with clean energy, and excess power is stored in a three-MW energy storage system comprised of new and recycled batteries. Specifically, the equivalent of 148 used Nissan Leaf batteries have found a second life in this system, which has the distinction of being the largest energy storage bank in a commercial building in Europe.
With a capacity of 2.8 MWh, the arena''s battery can balance the differences in energy supply and demand, provide clean backup power during a blackout and even help balance the country''s electricity grid by providing frequency regulation services upon the request of grid operators.
Naturally, the smart energy considerations don''t stop there. Johan Cruijff Arena envisions a future in which its 2,000 parking spaces are filled with electric vehicles (EVs) plugged into smart chargers. When the stadium experiences peaks in its electricity load, each EV would quickly pitch in to provide clean local energy and avoid costly strains on the grid. The onsite smart chargers would ensure that this peak shaving doesn’t prevent all the EVs from being fully charged by the time the match ends or the performer hits their final note.
Several terabytes of onsite data are collected at Johan Cruijff Arena on a daily basis. A cloud-based platform helps make sense of it all, allowing the facility to make data-driven decisions that positively impact business, visitor safety and facility management.
Even the grass is constantly monitored, allowing groundskeepers to manage the soil''s nutrient content. Sensors let them know how much water, ventilation and lighting is needed to keep the pitch in top shape. The bounce and roll of a soccer ball can be measured, and even the lawnmowers contain advanced sensors that enable a customized maintenance routine.
Big data has allowed the fan experience to improve at the 55,000-seat stadium. Visitors can get real-time directions to their seats, and smart crowd management improves security. The main objectives of the entire project were to increase revenues by 20 percent and decrease costs by the same amount. Sander van Stiphout, the arena''s innovation director, said that those goals are close to being met.
Johan Cruijff Arena is a shining example of sustainable thinking. The company''s motivation to be a productive and responsible actor in the community is evident, and the success it has seen is mostly thanks to an approach that welcomes large companies and startups alike to experiment with their respective solutions in an open-minded space.
The speed of the stadium''s innovation timeline is inspiring. In just a few years, the venue managed to integrate disparate sustainability technologies and cutting-edge sensors which all work together for the benefit of the venue''s patrons and the city of Amsterdam. All the experiments trialed in the arena’s innovation lab are designed to be exported to other stadiums and buildings – here''s hoping that this spirit of collaboration leads to similar success stories around the world.
Energy storage means that energy is stored when the price for energy is low (so when demand is low or supply is high). The energy stored is kept for times when the price is high (when demand is high or supply is limited). Energy storage technologies are essential for effective integration of renewable energy sources, especially for sources such as solar and wind. This is because the volume of energy generated from these sources is weather-dependent.
There are many different types of energy storage technologies, such as batteries, pumped hydroelectric storage, thermal energy storage, flywheel and compressed air energy storage. Batteries are the most common form of energy storage for small-scale applications. Pump accumulators are the most commonly used form of large-scale energy storage.
Energy storage offers a host of benefits. It improves the reliability and resilience of the energy system. It can also be used to relieve the transmission peak on the grid. And it enables the integration of renewable energy sources. What''s more, energy storage can also reduce greenhouse gas emissions, among other things, by making it possible to use more renewable energy sources. And also by reducing the need for peak plants powered by fossil fuels.
The use of technologies for energy storage is also met with challenges, such as high costs, regulatory barriers, and technical limitations. Across the globe, efforts are being made to tackle these challenges and to accelerate the use of technologies for energy storage. For example, new technologies are being researched and developed. And policies are being created that support the use of energy storage and investment in energy storage infrastructure. In Brussels, for example, there was discussion of European legislation on mandatory minimum gas storages and strategic gas stocks.
Energie-Nederland believes an important starting point is that storage must be developed by market participants. It belongs in the free domain and not in the regulated domain of the grid and network operators.
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