In the US Federal Heat Pump Initiative, Trane Technologies incorporates 3D printing.

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US federal funding is driving heat pump innovation in the country, with Trane, Texas A&M, and Purdue University at the forefront. Trane Technologies, a company that specializes in connecting energy sources with the right technology, has been awarded federal funds for its heat pump technology development. Collaborating with the Department of Energy’s Oak Ridge National Laboratory, Purdue University, and Texas A&M, Trane Technologies aims to revolutionize decarbonization solutions for the built environment.

Trane Technologies’ latest heat pump technology for commercial buildings combines heating and cooling systems into one efficient electric solution. Notably, its residential cold-climate heat pump has surpassed the Department of Energy’s requirements for high-efficiency heating in freezing temperatures. These advancements align with Trane’s 2030 Sustainability Commitments, including its Gigaton Challenge and its net-zero by 2050 pledge, both of which have been validated by the Science Based Targets Initiative.

Carrier and Lennox, along with Trane, are participants in the recent heat pump federal program, competing for funding to develop transformative heat pump technology for decarbonization. Meanwhile, Texas A&M University is making significant strides in 3D printing. In collaboration with the Air Force Research Laboratory, Texas A&M has developed a method to 3D print martensitic steel that avoids unwanted pores, enhancing the strength of the printed objects.

Furthermore, Texas A&M has pioneered the ME 3D printing technique, which improves bonding between printed layers. In the past, 3D printed parts made using the ME method were weaker compared to those made through injection molding. By incorporating plasma science and carbon nanotube technology, Texas A&M researchers have found a way to increase the reliability of 3D printed parts by welding the printed layers more effectively. By coating the surface of each layer with carbon particles, the researchers were able to heat the printed layers using electric currents, effectively bonding them together.

In conclusion, with the support of federal funding, Trane Technologies, Texas A&M, and Purdue University are leading the way in heat pump innovation. Through their research and advancements in 3D printing, they are not only revolutionizing decarbonization solutions but also contributing to the overall sustainability goals set by the industry. With their dedication to innovation and sustainability, the future of heat pump technology looks promising.

At Purdue University, 3D printing activities are taking place as part of the TRAILS project. TRAILS 2.0 is an innovative initiative that allows students to explore their local environment and engage with STEM professionals. One of the key components of the program is the use of 3D printing, which is seen as a valuable tool for enhancing student learning.

The Purdue Rapid Prototyping Laboratory houses a range of FDM 3D printers that are ideal for creating complex designs. Among the printers available are the Lulzbot, MatterHacker, and Ultimaker, all of which offer high-quality printing capabilities. These printers enable students to bring their designs to life and test them in a tangible, real-world context.

But it’s not just the students who benefit from 3D printing. Companies that are involved in developing new or improved products, processes, or software can also take advantage of the Research and Development (R&D) Tax Credit. This permanent tax credit allows companies to include the wages of technical employees who are involved in creating, testing, and revising 3D printed prototypes, as well as the time spent integrating 3D printing hardware and software. The costs of filaments consumed during the development process can also be recovered.

With its ability to create and test prototypes quickly and efficiently, 3D printing is a strong indicator that R&D Credit eligible activities are taking place. Any companies that are implementing this technology should consider taking advantage of the R&D Tax Credits available to them.

Beyond the realm of academia and business, 3D printing is also making waves in the world of energy technology. The US federal government recognizes that buildings account for a significant portion of energy usage and is providing funding for heat pump technology development. Interestingly, this funding specifically includes 3D printing technology development. This presents a unique opportunity for the 3D printing industry to contribute its expertise to this major initiative and help optimize heat pump technology.

In conclusion, 3D printing is playing a significant role in various fields, from education to business and energy technology. Its ability to create prototypes quickly and accurately makes it an invaluable tool for innovation and problem-solving. The use of 3D printing in the TRAILS project at Purdue University is just one example of how this technology is enhancing student learning and creating real-world opportunities. Additionally, companies that are involved in developing new products or processes can benefit from the R&D Tax Credit, while the 3D printing industry has a unique opportunity to contribute to heat pump technology development. The future looks bright for 3D printing and its various applications.

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