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Report: Texas trails behind in cycling safety, sustainability

A new report ranks Texas as one of the least cycling-friendly states in the U.S., citing poor infrastructure, limited bike routes, and low safety measures, highlighting the need for improved sustainable transportation. Photo by Photo Mizuno K/Pexels

In what will come as no surprise to cyclists around Houston, the state of Texas is not a good place for bicycle riding. According to a new report of the "Most Cycling-Friendly States in the U.S.," Texas comes in at No. 47 — meaning that only three other states are worse.

The report, from Philadelphia personal injury law firm KaplunMarx, examines all 50 states based on six metrics: Air quality index, the number of cyclist deaths per one million residents, bike routes per square mile, local government actions supporting cycling, federal funding for cycling projects, and bicycle laws.

Texas musters a mere 31 points out of 100 for its "cycling friendly score."

The most cycling friendly state in the U.S.: Minnesota, which earned 84 points to claim the title.

According to the report's findings, there have been 15 local government actions per capita in Texas that integrate pedestrians and cyclists in transportation projects. Texas' has a 41 air quality index value, and there are approximately 1.2 bike routes per 1,000 square miles in the state.

On cyclist deaths, Texas does a little better, with three cyclist deaths per one million residents in Texas — about nine percent lower than the national average.

According to KaplunMarx founding partner Ted Kaplun, there is an average of 857 cyclist fatalities in the U.S. every year. He adds that every measure or community effort to improve cyclist-friendliness is beneficial for all Americans.

"It's crucial for all states to continually assess and enhance their cycling provisions, learning from both high-ranking peers and their own experiences," he says.

Top-ranking Minnesota has only one cyclist death per one million state residents. It also has about 27.2 bike routes per 1,000 square miles.

After Minnesota, the remaining top five best states for cyclists are Massachusetts (No. 2), Rhode Island (No. 3), Washington (No. 4), and Iowa (No. 5).

At the bottom of the list are Nevada (No. 48), Arizona (No. 49), and Utah (No. 50) — all of which performed far worse than Texas to be declared the three least cycling-friendly states.

The entire country still has areas for improvement when it comes to creating a safer environment for cyclists, regardless of where each state landed on the list, according to Kaplun.

"With over 53 million Americans riding bicycles regularly, the importance of cycling-friendly infrastructure and safety measures cannot be overstated," said Kaplun in the report. "This isn't just about rankings – it's about enhancing the quality of life, promoting sustainable transportation, and most crucially, saving lives."

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This article originally ran on CultureMap.

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A View From HETI

Researchers Rahul Pandey, senior scientist with SRI and principal investigator (left), and Praveen Bollini, a University of Houston chemical engineering faculty, are key contributors to the microreactor project. Photo via uh.edu

A University of Houston-associated project was selected to receive $3.6 million from the U.S. Department of Energy’s Advanced Research Projects Agency-Energy that aims to transform sustainable fuel production.

Nonprofit research institute SRI is leading the project “Printed Microreactor for Renewable Energy Enabled Fuel Production” or PRIME-Fuel, which will try to develop a modular microreactor technology that converts carbon dioxide into methanol using renewable energy sources with UH contributing research.

“Renewables-to-liquids fuel production has the potential to boost the utility of renewable energy all while helping to lay the groundwork for the Biden-Harris Administration’s goals of creating a clean energy economy,” U.S. Secretary of Energy Jennifer M. Granholm says in an ARPA-E news release.

The project is part of ARPA-E’s $41 million Grid-free Renewable Energy Enabling New Ways to Economical Liquids and Long-term Storage program (or GREENWELLS, for short) that also includes 14 projects to develop technologies that use renewable energy sources to produce sustainable liquid fuels and chemicals, which can be transported and stored similarly to gasoline or oil, according to a news release.

Vemuri Balakotaiah and Praveen Bollini, faculty members of the William A. Brookshire Department of Chemical and Biomolecular Engineering, are co-investigators on the project. Rahul Pandey, is a UH alum, and the senior scientist with SRI and principal investigator on the project.

Teams working on the project will develop systems that use electricity, carbon dioxide and water at renewable energy sites to produce renewable liquid renewable fuels that offer a clean alternative for sectors like transportation. Using cheaper electricity from sources like wind and solar can lower production costs, and create affordable and cleaner long-term energy storage solutions.

“As a proud UH graduate, I have always been aware of the strength of the chemical and biomolecular engineering program at UH and kept myself updated on its cutting-edge research,” Pandey says in a news release. “This project had very specific requirements, including expertise in modeling transients in microreactors and the development of high-performance catalysts. The department excelled in both areas. When I reached out to Dr. Bollini and Dr. Bala, they were eager to collaborate, and everything naturally progressed from there.”

The PRIME-Fuel project will use cutting-edge mathematical modeling and SRI’s proprietary Co-Extrusion printing technology to design and manufacture the microreactor with the ability to continue producing methanol even when the renewable energy supply dips as low as 5 percent capacity. Researchers will develop a microreactor prototype capable of producing 30 MJe/day of methanol while meeting energy efficiency and process yield targets over a three-year span. When scaled up to a 100 megawatts electricity capacity plant, it can be capable of producing 225 tons of methanol per day at a lower cost. The researchers predict five years as a “reasonable” timeline of when this can hit the market.

“What we are building here is a prototype or proof of concept for a platform technology, which has diverse applications in the entire energy and chemicals industry,” Pandey continues. “Right now, we are aiming to produce methanol, but this technology can actually be applied to a much broader set of energy carriers and chemicals.”

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