TY - THES A1 - Armal, Vaibhav Vijay T1 - A business case study of green hydrogen production using photovoltaics in Germany N2 - The world is moving forward, and its energy need is also increasing daily. Currently, a significant amount of this energy comes from a finite resource called fossil fuels. The biggest problem with this resource is the high amount of carbon emissions, which has an adverse impact on the environment in the form of global warming, greenhouse gases, ozone layer depletion, etc. This in turn could lead to dangerous consequences for the planet and the ecosystems. Governments across the globe are getting serious and taking big resolutions toward green energy, but the set targets are big and still far away. High motivation and strong will among the top leaders are necessary to achieve the target of using green energy for most of the world's energy demands. This must be met with prompt actions and a decisive approach. Hydrogen, the resource available abundantly in the atmosphere, can be the biggest hope towards this target. Studies have shown that hydrogen can take the green energy revolution a long way if produced on a large scale. A renewed and widespread hydrogen momentum is growing in the energy market. The last years have witnessed a substantial increase in demand for hydrogen, including several countries introducing and developing new hydrogen national strategies and many private companies leaning toward investing in hydrogen-related projects. Green hydrogen's environment-friendly and versatility will lead the world toward a hydrogen economy. Though there are increased investments in the technological advancement in green hydrogen, there exist many unresolved issues related to technical and infrastructural challenges. Nevertheless, a clean and renewable hydrogen economy will not only fight climate change but also offers a comprehensive infrastructure for new opportunities in terms of jobs and employment. Hydrogen may play a crucial role in restructuring the international alliances and conflicts regarding global transformation and decarbonisation of the energy market. By 2050, hydrogen can supply up to 24% of the world's energy needs This paper is inclined towards a quantitative assessment of the hybrid (with and without battery storage) green hydrogen production system in terms of working and financial feasibility. Y1 - 2022 UR - https://opus4.kobv.de/opus4-haw/frontdoor/index/index/docId/3486 UR - https://nbn-resolving.org/urn:nbn:de:bvb:573-34867 CY - Ingolstadt ER -