Site items in: Content by Author Jianli Hu

To take a deep dive into our archives, please select filters and click Search. Search Results (Found )

Display Options
Overview Details

No Results Found.

Please try modifying your filters and filtering again.

Please add a keyword and/or a dropdown filter to generate a precise search, or use the sitewide search at the top of the page for a more general search.

Searching... Please wait[cancel Search]
Microwave Catalytic Synthesis of Ammonia for Energy Storage and Transformation
Presentation

Microwave Catalytic Synthesis of Ammonia for Energy Storage and Transformation

Xinwei BaiDushyant ShekhawatChristina WildfireAlbert E. StiegmanRobert A. DagleJianli Hu

This paper presents an innovative approach of producing energy-dense, carbon-neutral liquid ammonia as a means of energy carrier. The approach synergistically integrates microwave reaction chemistry with novel heterogeneous catalysis that decouples N2 activation from high temperature and high pressure reaction, altering reaction pathways and lowering activation energy. Results have shown that ammonia synthesis can be carried out at 280 ℃ and ambient pressure to achieve ~1 mmol NH3/g cat. /hour over supported Ru catalyst systems. Adding promoters of K, Ce and Ba has significantly improved the ammonia production rate over Ru-based catalysts that could be attributing to enhanced electromagnetic sensitivity…

Microwave Catalysis for Ammonia Synthesis Under Mild Reaction Conditions
Presentation

Microwave Catalysis for Ammonia Synthesis Under Mild Reaction Conditions

Jianli HuHanjing TianYan LuoXinwei BaiDushyant ShekhawatChristina WildfireVictor AbdelsayedMichael J. SpencerRobert A. DagleStephen DavidsonAlbert E. Stiegman

A scalable, cost-effective catalytic process of ammonia synthesis is developed by using microwave excitation under mild reaction conditions. In this research project funded by DOE ARPA-E, our interdisciplinary team of WVU, NETL, PNNL, FSU and two industrial partners have demonstrated that ammonia synthesis can be carried out at 200-300 °C and ambient pressure. This transformational process integrates system elements of electromagnetic sensitive catalysts and microwave reactor design. Taking advantages of state-of-the art non-equilibrium microwave plasma technology, catalytic ammonia synthesis undergoes a new reaction pathway where the barrier for the initial dissociation of the dinitrogen is decoupled from the bonding energy…