Green hydrogen production via electrolysis is the main barrier to entry to the Hydrogen economy, as the most significant energy losses are incurred in production for a H2 energy storage mode. As the trend of implementation of renewable energy technologies accelerates, so too will the need for a versatile, sustainable mode of energy storage.
BS in Engineering Physics from Tufts University. Worked at the Sustainable Electrochemical Energy lab under the supervision of Dr. Iryna Zenyuk. Projects entailed electrochemical characterization and multi-physics modeling of Platinum electrocatalysts in PEM fuel cell applications. Later worked under Dr. Adam Weber at Berkeley Labs, tasked with modeling PEM electrochemical compression for implementation in H2 refueling stations. Currently a modeling engineer for Enapter, whose AEM, non-noble metal electrocatalyst electrolysers allow for cost-effective, scalable production of green H2.
Enapter makes the most cost-effective systems for Hydrogen production of up to 10m3/hour. We provide fully integrated Hydrogen energy solutions for off-grid electricity, energy storage and mobility. Enapter's Anion Exchange Membrane (AEM) Electrolyser stack contains no noble metals, allowing it to be the most cost-effective on the market today. Enapter's efficient solution for on-site production of Hydrogen gas comes with a unique energy monitoring and control system. A network of sensors collects data in realtime, and understands both environment and individual components. We are creating the ideal user experience inspired by the best IoT systems, without compromising on security nor relying on a continuous cloud service connection.