Critical analysis of the use of white-box versus black-box models for multi-objective optimisation of small-scale biorefineries

Frontiers in food science and technology Pub Date : 2023-12-22 DOI:10.3389/frfst.2023.1154305

V. De Buck, M. Sbarciog, Jef Cras, S. Bhonsale, M. Polanska, Jan F. M. Van Impe

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Abstract

Biorefinery systems that are embedded in their local setting provide an attractive framework for the valorisation of locally available food- and other bio-waste streams. They can aid in the provision of local bio-waste processing facilities as well as the targeted revalorisation of local bio-waste feedstocks by converting them in locally desired biorefinery products. Since food- and other bio-waste feedstocks are often diffuse feedstocks, small-scale biorefineries that are tailored for their local setting are the most suitable biorefining system for their processing. Whereas small-scale biorefineries cannot rely on the economy-of-scale to be an economic sustainable endeavour, they need to be meticulously optimised according to multiple sustainability objectives. These objectives can be of economic, societal, or environmental nature. A commonly used optimisation criterion in these problems is the energy requirements of the entire biorefinery system. For many commonly used biorefinery processes mass balance models are available (which are often mechanistic models), however, energy balances are difficult to obtain. Chemical process simulators, like Aspen Plus, provide an extensive toolkit to easily model the mass- and energy balances of a multitude of chemical processes. However, especially in the context of multi-objective optimisation, the obtained white-box models are too complex to simulate the considered processes efficiently consecutively. Therefore, in this contribution, a critical analysis is presented of the use of white-box versus the black-box models in the context of the multi-objective optimisation of a small-scale biorefinery. An in-house developed biorefinery network is re-modelled in Aspen Plus and used as a digital twin for the development of a surrogate model. Eventually, the modelled biorefinery network is optimised using both models and a comprehensive evaluation is drafted.

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对使用白盒模型和黑盒模型进行小型生物炼油厂多目标优化的批判性分析

融入当地环境的生物精炼系统为当地可用的食品和其他生物废物流的价值提升提供了一个极具吸引力的框架。它们可以帮助提供当地的生物废弃物加工设施，并通过将当地的生物废弃物原料转化为当地所需的生物精炼产品，有针对性地实现当地生物废弃物原料的价值重估。由于食物和其他生物废弃物原料通常是分散的原料，因此适合当地环境的小型生物炼制厂是最适合处理这些原料的生物炼制系统。小型生物精炼厂不能依靠规模经济来实现经济上的可持续发展，而是需要根据多种可持续发展目标进行精心优化。这些目标可以是经济、社会或环境性质的。这些问题中常用的优化标准是整个生物精炼系统的能源需求。许多常用的生物精炼工艺都有质量平衡模型（通常是机械模型），但很难获得能量平衡。化学过程模拟器（如 Aspen Plus）提供了广泛的工具包，可轻松建立多种化学过程的质量和能量平衡模型。然而，特别是在多目标优化的背景下，所获得的白盒模型过于复杂，无法连续有效地模拟所考虑的过程。因此，在本论文中，将对小型生物精炼厂的多目标优化中使用白盒模型和黑盒模型的情况进行批判性分析。在 Aspen Plus 中对内部开发的生物精炼网络进行了重新建模，并将其作为数字孪生模型用于开发代用模型。最后，使用这两个模型对建模的生物精炼网络进行优化，并起草综合评估报告。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in food science and technology

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