Enlarge / The peloton passing through a sunflowers field during the stage eight of the 110th Tour de France in 2023. (credit: David Ramos/Getty Images)

Most readers probably did not anticipate seeing a Tour de France preview on Ars Technica, but here we are. Cycling is a huge passion of mine and several other staffers, and this year, a ton of intrigue surrounds the race, which has a fantastic route. So we're here to spread Tour fever.

The three-week race starts Saturday, paradoxically in the Italian region of Tuscany. Usually, there is a dominant rider, or at most two, and a clear sense of who is likely to win the demanding race. But this year, due to rider schedules, a terrible crash in early April, and new contenders, there is more uncertainty than usual. A solid case could be made for at least four riders to win this year's Tour de France.

For people who aren't fans of pro road cycling—which has to be at least 99 percent of the United States—there's a great series on Netflix called Unchained to help get you up to speed. The second season, just released, covers last year's Tour de France and introduces you to most of the protagonists in the forthcoming edition. If this article sparks your interest, I recommend checking it out.

Enlarge / Some of the waste material that ends up part of these bricks. (credit: Seamus Daniel, RMIT University)

Researchers at the Royal Melbourne Institute of Technology (RMIT) in Australia have developed special “energy-smart bricks” that can be made by mixing clay with glass waste and coal ash. These bricks can help mitigate the negative effects of traditional brick manufacturing, an energy-intensive process that requires large-scale clay mining, contributes heavily to CO₂ emissions, and generates a lot of air pollution.

According to the RMIT researchers, “Brick kilns worldwide consume 375 million tonnes (~340 million metric tons) of coal in combustion annually, which is equivalent to 675 million tonnes of CO₂ emission (~612 million metric tons).” This exceeds the combined annual carbon dioxide emissions of 130 million passenger vehicles in the US.

The energy-smart bricks rely on a material called RCF waste. It mostly contains fine pieces of glass (92 percent) left over from the recycling process, along with ceramic materials, plastic, paper, and ash. Most of this waste material generally ends up in landfills, where it can cause soil and water degradation. However, the study authors note, “The utilization of RCF waste in fired-clay bricks offers a potential solution to the increasing global waste crisis and reduces the burden on landfills."