白藜芦醇结晶过程的二维种群平衡建模和基于ML的多目标优化

IF 4 3区工程技术 Q2 ENGINEERING, CHEMICAL

AIChE Journal Pub Date : 2025-10-04 DOI:10.1002/aic.70094

Álmos Orosz, Monika Neal, Rekha Rao, Christine Roberts, Botond Szilágyi, Zoltán K. Nagy

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引用次数: 0

摘要

结晶在药品生产中是至关重要的，它会影响原料药的纯度和可加工性。本研究使用二维种群平衡模型（2D - PBM）模拟了白藜芦醇在水-乙醇溶剂中的冷却结晶。来自聚焦光束反射测量（FBRM）、紫外/可见光谱学和显微镜的实验数据通过实验设计支持模型校准。校准良好的模型使多目标优化（MOO）能够(1)最大化产量和最小化批次时间，(2)探索纵横比和中位晶体尺寸之间的关系。虽然第一种情况显示了最小的权衡，但第二种情况显示了纵横比和尺寸/产量之间的平衡。将机械建模与机器学习相结合的混合方法大大加快了模拟速度，并使帕累托最优解的有效预测成为可能。这种集成为复杂的结晶过程提供了可扩展和准确的优化策略。

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2D population balance modeling and ML‐based multi‐objective optimization for the crystallization process of resveratrol

Crystallization is critical in pharmaceutical manufacturing, influencing active pharmaceutical ingredient (API) purity and processability. This study models the cooling crystallization of resveratrol in a water‐ethanol solvent using a two‐dimensional population balance model (2D‐PBM). Experimental data from Focused Beam Reflectance Measurement (FBRM), UV/Vis spectroscopy, and microscopy supported model calibration via design of experiments. The well‐calibrated model enabled multi‐objective optimization (MOO) to (1) maximize yield and minimize batch time, and (2) explore the relationship between aspect ratio and median crystal size. While the first scenario showed minimal trade‐offs, the second revealed a balance between aspect ratio and size/yield. A hybrid approach combining mechanistic modeling with machine learning drastically accelerated simulations and enabled efficient prediction of Pareto‐optimal solutions. This integration offers a scalable and accurate optimization strategy for complex crystallization processes.

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来源期刊

AIChE Journal 工程技术-工程：化工

CiteScore

7.10

自引率

10.80%

发文量

411

审稿时长

3.6 months

期刊介绍： The AIChE Journal is the premier research monthly in chemical engineering and related fields. This peer-reviewed and broad-based journal reports on the most important and latest technological advances in core areas of chemical engineering as well as in other relevant engineering disciplines. To keep abreast with the progressive outlook of the profession, the Journal has been expanding the scope of its editorial contents to include such fast developing areas as biotechnology, electrochemical engineering, and environmental engineering. The AIChE Journal is indeed the global communications vehicle for the world-renowned researchers to exchange top-notch research findings with one another. Subscribing to the AIChE Journal is like having immediate access to nine topical journals in the field. Articles are categorized according to the following topical areas: Biomolecular Engineering, Bioengineering, Biochemicals, Biofuels, and Food Inorganic Materials: Synthesis and Processing Particle Technology and Fluidization Process Systems Engineering Reaction Engineering, Kinetics and Catalysis Separations: Materials, Devices and Processes Soft Materials: Synthesis, Processing and Products Thermodynamics and Molecular-Scale Phenomena Transport Phenomena and Fluid Mechanics.