What’s clear is that we need to lay out all the puzzle pieces in order to make it work. This challenge inspired our concept of puzzle pieces, or blocks within a grid. Each block represents a different energy source or energy consumer. By strategically combining these blocks, we can illustrate how SMRs will fit into and support our overall energy strategy for 2050.

Small Modular Reactors allow for mass production in factories. This makes SMRs an attractive alternative to traditional nuclear power plants like those in Doel and Tihange. With their simplified design and flexible deployment, SMRs support renewable energy sources while offering enhanced safety through passive safety systems. They are able to compensate for the intermittency of renewable energy, ensuring a stable and reliable energy supply.

What’s clear is that we need to lay out all the puzzle pieces in order to make it work. This challenge inspired our concept of puzzle pieces, or blocks within a grid. Each block represents a different energy source or energy consumer. By strategically combining these blocks, we can illustrate how SMRs will fit into and support our overall energy strategy for 2050.

Small Modular Reactors allow for mass production in factories. This makes SMRs an attractive alternative to traditional nuclear power plants like those in Doel and Tihange. With their simplified design and flexible deployment, SMRs support renewable energy sources while offering enhanced safety through passive safety systems. They are able to compensate for the intermittency of renewable energy, ensuring a stable and reliable energy supply.

What’s clear is that we need to lay out all the puzzle pieces in order to make it work. This challenge inspired our concept of puzzle pieces, or blocks within a grid. Each block represents a different energy source or energy consumer. By strategically combining these blocks, we can illustrate how SMRs will fit into and support our overall energy strategy for 2050.

Small Modular Reactors allow for mass production in factories. This makes SMRs an attractive alternative to traditional nuclear power plants like those in Doel and Tihange. With their simplified design and flexible deployment, SMRs support renewable energy sources while offering enhanced safety through passive safety systems. They are able to compensate for the intermittency of renewable energy, ensuring a stable and reliable energy supply.

What’s clear is that we need to lay out all the puzzle pieces in order to make it work. This challenge inspired our concept of puzzle pieces, or blocks within a grid. Each block represents a different energy source or energy consumer. By strategically combining these blocks, we can illustrate how SMRs will fit into and support our overall energy strategy for 2050.

What’s clear is that we need to lay out all the puzzle pieces in order to make it work. This challenge inspired our concept of puzzle pieces, or blocks within a grid. Each block represents a different energy source or energy consumer. By strategically combining these blocks, we can illustrate how SMRs will fit into and support our overall energy strategy for 2050.

Small Modular Reactors allow for mass production in factories. This makes SMRs an attractive alternative to traditional nuclear power plants like those in Doel and Tihange. With their simplified design and flexible deployment, SMRs support renewable energy sources while offering enhanced safety through passive safety systems. They are able to compensate for the intermittency of renewable energy, ensuring a stable and reliable energy supply.