Towards a systematic and knowledge-based requirements and conceptual engineering for modular electrolysis plants

Q2 Energy Energy Informatics Pub Date : 2023-10-26 DOI:10.1186/s42162-023-00298-9

Artan Markaj, Julius Lorenz, Lena Scholz, Vincent Henkel, Alexander Fay

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Abstract

The production of green hydrogen and its scale-up require the enginering and installation of new electrolysis plants. Modular electrolysis plants ease the scale-up as they allow to add further modules with growing demand. While many engineering methods focus on the detailed planning of the plants and their automation systems, the early engineering phases are scarcely considered, supported or formalized. However, especially these phases are crucial in the current scale-up of modular electrolysis plants. In this paper, an intention-based engineering approach for the early engineering phases Requirements Engineering and Conceptual Engineering for modular electrolysis plants is presented and evaluated based on three different use cases. The approach is based on Goal-oriented Requirements Engineering from Software Engineering and relies on an early, systematic as well as formalized description and analysis of intentions of different engineering disciplines.

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为模块化电解装置提供系统化的、以知识为基础的需求和概念工程

绿色氢的生产及其规模的扩大需要设计和安装新的电解工厂。模块化电解工厂可以根据不断增长的需求增加更多的模块，从而简化了规模扩大。虽然许多工程方法侧重于工厂及其自动化系统的详细规划，但很少考虑、支持或形式化早期工程阶段。然而，特别是这些阶段在当前模块化电解工厂的规模扩大中至关重要。在本文中，针对模块化电解工厂的早期工程阶段提出了一种基于意图的工程方法，并基于三个不同的用例对其进行了评估。该方法基于来自软件工程的面向目标的需求工程，并依赖于对不同工程学科的意图的早期的、系统的和形式化的描述和分析。

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