VDL Bus & Coach and RWE cooperate in an innovative project called Anubis, in which 43 ion-lithium batteries are given a “second life”: after intensive use in electric buses from manufacturer VDL, decommissioned battery units will be linked by RWE at the Moerdijk power plant site, in order to form a stationary power storage facility. In this way, the second life batteries make an important contribution to the stability of the power grid and help to relieve the grid by helping to keep supply and demand in balance. 

 

Roger Miesen, CEO RWE Generation SE: “RWE is leading the way in developing innovative energy storage solutions. Batteries are well suited for keeping supply and demand of electricity in balance and thus for helping to stabilise the grid. With Anubis we will put second-life batteries to further use as a sustainable alternative to new batteries. This is an opportunity to provide high-performance storage solutions quickly, economically and sustainable. With this project we gain experience that will help us to conduct future battery projects of this kind.”

 

Paul van Vuuren, CEO VDL Bus & Coach, adds: “In this project, we will initially use the batteries from 43 electric VDL buses that have been in operation in the Dutch city of Eindhoven since 2016. These vehicles are currently receiving a new and larger battery pack, but the used batteries still have enough capacity to be used in stationary applications. In Europe we are a forerunner in the field of electric public transport. Offering a sustainable circular solution for our batteries fits into our strategy. However, its application still requires a lot of new knowledge and development. Together with RWE, we will therefore be taking a lot of measures and collect data in this project, so that we can contribute even more making our society sustainable.” 

 

VDL and RWE intend to deploy many more decommissioned batteries in this way over the coming years. The demand for electric buses is increasing rapidly in the Netherlands and surrounding countries while the need for storage capacity is growing. Assuming that after 2030 all buses and an increasing number of cars and trucks in the Netherlands will run on electricity, each year more than 150,000 tons of batteries will reach the end of their first life cycles. These are currently classified as waste and as such mostly taken to recycling plants abroad. By using these batteries in stationary storage facilities instead, their productive life is being prolonged. This also reduces the use of resources such as rare earths. Furthermore, Anubis contributes to CO2 reduction as it spreads the carbon footprint of manufacturing batteries over many more years and charging cycles. At the end of their life cycle, the batteries are dismantled in a responsible way and materials are reused as much as possible.

 

Wind and solar energy are weather-dependent and therefore the energy supplied to the network fluctuates. Battery storage can in three ways support the transition to a more sustainable energy supply. First of all, at times of high or low production from intermittent renewable sources, batteries can store or supply energy to balance supply and demand. Secondly, by reducing peak supply and demand, the existing grid capacity is used more efficiently and more suppliers and off takers can be connected to the network. Finally, at the request of electricity transmission system operator TenneT, the batteries can store or supply energy quickly and, in this way, help to stabilize the frequency of the power grid.

 

Due to its innovative nature, the Anubis project received a grant from Rijksdienst voor Ondernemend Nederland (RVO) from the Demonstration Energy and Climate Innovation (DEI+) scheme. The planned storage facility in Moerdijk is expected to become operational in 2023. RWE is already working on battery projects in Germany, Belgium, the United Kingdom and the US. In its tender bid for the Hollandse Kust West offshore wind farm, RWE has also included a plan for the largest battery in the northern part of the Netherlands. This will make it easier to connect renewable production capacity to the grid in the coming years.

 

RWE’s first project of this kind came into operation in 2021, with an energy storage system consisting of used lithium-ion batteries from Audi at the site of the pumped-storage power plant in Herdecke, North Rhine-Westphalia. It’s the ambition of RWE to grow its battery storage capacity to 3 gigawatts by 2030.