The utilization of renewable energy technologies, particularly hydrogen, has seen a boom in interest and has spread throughout the world. Ethanol steam reformation is one of the primary methods capable of producing hydrogen efficiently and reliably. This paper provides an in-depth study of the reformulated system both theoretically and numerically, as well as a plan to explore the possibility of converting the system into its conservation form. Lastly, we offer an overview of several numerical approaches for solving the general first-order quasi-linear hyperbolic equation to the particular model for ethanol steam reforming (ESR). We conclude by presenting some results that would enable the usage of these ODE/PDE solvers to be used in non-linear model predictive control (NMPC) algorithms and discuss the limitations of our approach and directions for future work.

翻译：利用可再生能源技术,特别是氢能,已经引起人们的兴趣,并在全世界推广。乙醇蒸汽改造是能够高效可靠地生产氢的主要方法之一。本文件深入研究了重新开发的系统,从理论上和数字上加以研究,并计划探讨将系统转化为保护形式的可能性。最后,我们概述了解决一般一阶准线性双曲方程式与乙醇蒸汽改革特殊模式(ESR)的若干数字方法。我们最后提出一些结果,使这些ODE/PDE解答器能够用于非线性模型预测控制算法,并讨论我们今后工作的方法和方向的局限性。