Quantum technology is a rapidly expanding field of physics and engineering, encompassing technologies that rely on genuine quantum properties of radiation and matters to realize protocols to process information more effectively than their classical counterparts. Quantum features of physical systems may also be exploited to improve the production, transport, storage and conversion of energy in large scale networks. This project aims at systematically investigate the conditions in which quantum features represent a resource to build an affordable, reliable, sustainable, and modern energy ecosystem. In order to provide general results, we exploit the paradigm of quantum walks to model quantum energy networks, and address the use of quantum superpositions, interference, and chirality to design schemes for enhanced energy transmission, routing, storage, and conversion and to assess whether situations exist where noise actually enhances energy management without losing quantum advantages.