Evaluating sustainable energy pathways: Economic perspective on advanced hydrogen production

This investigation seeks to evaluate hydrogen generation technologies in China with a focus on two commercial processes, namely hydrothermal oxidation and supercritical water gasification of organic waste from 2011 to 2021. This period witnessing major development, and highlight the key determinants of hydrogen production. The present study was mainly concerned with the enhancement of SCWG processes for hydrogen generation from microalgae and other potential feedstock. Some of the significant observations made in this period are the critical role of biomass composition, choice of catalyst, and operating conditions in increasing H-producing capabilities of reactor systems. The authors of research affirm that the feedstock with a high carbohydrate content and low levels of protein are the most suitable for hydrogen generation. Thus, expanding research on Supercritical Water Gasification, there is the development of HTO methods to consider various pathways of hydrogen production and their connection with existing energy networks. It also studied the effects that several types of catalysts embracing the heterogeneous transition metals and the homogeneous alkali metal compounds have on the efficiency of hydrogen production. These changes have rendered the hydrogen generation process to make more precise predictions and/or course corrections on the process. The studies that have been done between 2011 and 2021 show significant improvements in the ways that sustainable and efficient hydrogen generation technology can be created in China. The results provide a solid platform for future improvements and stress positive impacts that can be provided by these technologies for China's sustainability and energy transition progress.