Applied AI Techniques in the Process Industry: From Molecular Design to Process Design and Optimization...

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Chang He (Sun Yat-Sen University, China) Jingzheng Ren (Hong Kong Polytechnic University, Hong Kong)

Applied AI Techniques in the Process Industry

From Molecular Design to Process Design and Optimization

Chang He (Sun Yat-Sen University, China), Jingzheng Ren (Hong Kong Polytechnic University, Hong Kong)

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English

Blackwell Verlag GmbH
29 January 2025

Physical chemistry; Industrial chemistry; Chemical engineering; Artificial intelligence

Thorough discussion of data-driven and first principles models for energy-relevant systems and processes, approached through various in-depth case studies

Applied AI Techniques in the Process Industry identifies and categorizes the various hybrid models available that integrate data-driven models for energy-relevant systems and processes with different forms of process knowledge and domain expertise. State-of-the-art techniques such as reduced-order modeling, sparse identification, and physics-informed neural networks are comprehensively summarized, along with their benefits, such as improved interpretability and predictive power.

Numerous in-depth case studies regarding the covered models and methods for data-driven modeling, process optimization, and machine learning are presented, from screening high-performance ionic liquids and AI-assisted drug design to designing heat exchangers with physics-informed deep learning.

Edited by two highly qualified academics and contributed to by a number of leading experts in the field, Applied AI Techniques in the Process Industry includes information on:

Integration of observed data and reaction mechanisms in deep learning for designing sustainable glycolic acid Machine learning-aided rational screening of task-specific ionic liquids and AI for property modeling and solvent tailoring Integration of incomplete prior knowledge into data-driven inferential sensor models under the variational Bayesian framework AI-aided high-throughput screening, optimistic design of MOF materials for adsorptive gas separation, and reduced-order modeling and optimization of cooling tower systems Surrogate modeling for accelerating optimization of complex systems in chemical engineering

Applied AI Techniques in the Process Industry is an essential reference on the subject for process, chemical, and pharmaceutical engineers seeking to improve physical interpretability in data-driven models to enable usage that scales with a system and reduce inaccuracies and mismatch issues.

Edited by: Chang He (Sun Yat-Sen University China), Jingzheng Ren (Hong Kong Polytechnic University, Hong Kong)
Imprint: Blackwell Verlag GmbH
Country of Publication: Germany
Dimensions: Height: 244mm, Width: 170mm,
ISBN: 9783527353392
ISBN 10: 3527353399
Pages: 336
Publication Date: 29 January 2025
Audience: Professional and scholarly , College/higher education , Undergraduate , Further / Higher Education
Format: Hardback
Publisher's Status: Active

Chapter 1: Integrating Data-Driven Modeling with First-Principles Knowledge Chapter 2: Advanced algorithms for hybrid data-driven modelling Chapter 3: A computational framework for model-based design and optimization of dynamic and cyclic membrane processes Chapter 4: AI-Aided Optimization and Design of MOF Materials for Gas Separation Chapter 5: Machine learning Aided Materials and Process Integration Design for High-Efficiency Gas Separation Chapter 6: Data-driven screening of high-performance ionic liquids Chapter 7: Hunting for aromatic chemicals with AI techniques Chapter 8: AI-assisted drug design and production Chapter 9: Designing a Heat Exchanger by Combining Physics-Informed Deep Learning and Transfer Learning Chapter 10: Catalyst design based on machine learning Chapter 11: Surrogate models for sustainability optimization of complex industrial system Chapter 12: Advanced machine learning and deep learning models for chemical process control and process data analytics

Dr. Chang He is an Associate Professor in the School of Chemical Engineering and Technology, Sun Yat-Sen University. His research focuses on the multi-scale integration, design, optimization, and sustainability of the advanced energy systems. Dr. Jingzheng Ren is currently an Associate Professor at The Hong Kong Polytechnic University. He received the 2022 Asia-Pacific Economic Cooperation (APEC) Science Prize for Innovation, Research and Education (ASPIRE Prize).