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Have the two 黑料福利网 researchers themselves started thinking differently about their own electricity use? They nod in agreement. 鈥淲hile writing my dissertation, I spent more time at home. Before pressing the start button on the washing machine, I would first check how much power our solar panels were generating,鈥� says Gijs Verhoeven.

His colleague Bart van der Holst will soon be moving from his apartment to a house he has bought and is already busy making it more sustainable. 鈥淩ight now, I still rely mostly on fossil fuels, but we鈥檙e figuring out how to change that. In a flexible way,鈥� he adds with a laugh.

More than four years ago, Van der Holst and Verhoeven began their PhD journeys on the same day. That marked the start of an intensive collaboration in which the two searched for solutions to balance the load on the power grid more evenly.

The result speaks for itself: two dissertations full of practical insights and a smart simulation tool that grid operators can immediately put to use. Van der Holst defended his dissertation cum laude at the Department of Electrical Engineering on February 24, while Verhoeven will take the podium on May 7.

Waiting lists for grid connections

Across the Netherlands, problems with electricity supply are becoming increasingly common. In some places and at certain times, the grid is simply too crowded 鈥� a phenomenon known as congestion 鈥� and this has major consequences, Van der Holst explains. 鈥淣ot only for the energy transition, but also for economic growth and housing construction.鈥�

He lists several examples. 鈥淣ew companies face long waits for an electricity connection, existing companies cannot expand, new housing projects are delayed due to the lack of connections, sustainably generated energy cannot always be fed back into the grid, and new charging stations and wind turbines cannot be connected.鈥�

The biggest challenges occur in the high- and medium-voltage grids, which are used to transport electricity over long distances to businesses and residential neighborhoods. But as consumers, we also feel the impact of these higher-level grid issues in the low-voltage grid, Verhoeven adds.

鈥淥n top of that extra pressure, our electricity demand is growing. We鈥檙e increasingly driving electric vehicles, cooking electrically, and using electric heating 鈥� often at the same 鈥榩eak moments鈥�: between 7 and 9 a.m. and between 5 and 8 p.m. Those peaks have already become so high that grid operators sounded the this winter: due to overload, temporary power outages at certain times could not be ruled out.鈥�

Charging later

Expanding grid capacity with additional cables and transformers is necessary, but it takes a great deal of time, money, and scarce technical staff. For that reason, it is not seen as a short-term solution. As a result, research is underway into how grid operators can make more efficient use of existing capacity.

Together with TNO and several grid operators, Van der Holst and Verhoeven focused within the project Built Environment Electrification () on flexibility as a way to relieve pressure on the grid. Their research shows there is clear potential here.

鈥淵ou might think that turning on your washing machine or heat pump doesn鈥檛 make a difference in the bigger picture,鈥� says Verhoeven, 鈥渂ut we demonstrate that flexible behavior really does help reduce grid congestion.鈥� This could mean charging electric vehicles later, using batteries to temporarily store energy, or companies shifting their electricity demand.

A complex game

To enable that flexibility, Dutch grid operators have been using two instruments in recent years鈥攖he first in Europe to do so, Van der Holst explains. The first involves capacity restrictions applied a day in advance, in consultation with the consumer. 鈥淚n exchange for compensation, you are limited at certain times of the day in the amount of electricity you can draw.鈥�

The second instrument is known as redispatch. In this case, users indicate in advance what they expect to need. The grid operator can then specify at which times less or more electricity should be used. Van der Holst studied in detail how these two instruments can be combined to address congestion even more effectively.

He describes it as a game between grid operators, electricity users, and commercial flexibility providers. 鈥淓ach party has its own interests, expectations, and information. By simulating their interactions in a virtual environment, we can explore strategies that would be difficult, expensive, or risky to test in real grids.鈥�

Where a grid operator might currently choose between instrument A or B, Van der Holst and Verhoeven examined in a large-scale simulation study what happens when both instruments are used simultaneously. Their findings show that significant gains can indeed be achieved.

A new toolbox

In addition, Van der Holst studied how a grid operator can deal with uncertainty to arrive at an ideal combination of both instruments. 鈥淢any factors influence electricity use, which makes precise forecasting complex. With this toolbox, grid operators have new options to better regulate overload on our power grid.鈥�

To stimulate flexible behavior among electricity users, grid operators can also introduce financial measures, such as different types of tariffs. Verhoeven calculated various scenarios involving variable contracts and tariffs. His simulations show that combining tariffs with the previously mentioned capacity-restriction and redispatch contracts can, in certain situations, lead to a better distribution of electricity use, significantly increasing available capacity.

Flexible laundry

However, Verhoeven also issues a warning. 鈥淚f you financially incentivize users to consume more electricity during off-peak hours, that may initially work well to limit overload. But you quickly run the risk that the valley becomes the new peak 鈥� in other words, more and more people using electricity at the cheapest times. Our simulations show that in that case, we could actually be worse off.鈥�

The two 黑料福利网 researchers believe that a tariff linked to the level and timing of the highest energy consumption 鈥� a weighted peak tariff 鈥� could be a more robust way to distribute electricity use more evenly throughout the day. Above all, they advocate flexibility. Not only from electricity users, but also from grid operators, Van der Holst concludes.

鈥淲e鈥檙e facing increasingly serious problems, so action is definitely needed now. But don鈥檛 lock in the path we choose completely. We鈥檙e dealing with a dynamic system, so it鈥檚 essential that we can keep adjusting the controls. Thinking differently pays off. If every household shifts its use just a little, it can already make a big difference at the neighborhood level.鈥�

This article was originally published by Cursor, the independent news site of 黑料福利网. It is not a press release and is protected by copyright. No part of this publication may be reproduced without explicit permission from the Cursor . This article was translated from Dutch to English using AI-assisted tools and reviewed by an editor.