Element Transfer Reaction Theory
Foundations and Applications in Industrial Synthesis
AvLei Yu
Häftad, Engelska, 2027
2 312 kr
Kommande
Beskrivning
Element Transfer Reaction Theory: Foundations and Applications in Industrial Synthesis introduces a framework for modern chemical manufacturing. Bridging molecular reaction theory with the complex realities of industrial practice, the book pioneers the Element Transfer Reaction (ETR) approach that is anchored on the interplay between Element Source, Driving Force, and Output. Through compelling case studies, including lithium hexafluorophosphate (LiPF?) production and by-product valorization, the book demonstrates how ETR enables more sustainable, efficient, and resilient process design. Structured for clarity and depth, this resource covers the emergence of ETR theory in chemical synthesis and foundational pillars, including Element Source, Driving Force, and Output.
Users will find this to be a rigorous methodology and resource for evaluating synthetic reactions using practical, industry-relevant metrics, and key insights for future innovation in industrial chemistry. This is an essential resource for chemical engineers, industrial chemists, process designers, and sustainability researchers seeking to advance resource efficiency, supply chain stability, and sustainable manufacturing in their fields.
Users will find this to be a rigorous methodology and resource for evaluating synthetic reactions using practical, industry-relevant metrics, and key insights for future innovation in industrial chemistry. This is an essential resource for chemical engineers, industrial chemists, process designers, and sustainability researchers seeking to advance resource efficiency, supply chain stability, and sustainable manufacturing in their fields.
- Explains the ETR framework, enabling systematic evaluation of element circulation, resource efficiency, and industrial ecology
- Showcases industrial case studies that illustrate how ETR solves practical pain points like waste reduction and supply chain risk
- Quantifies sustainability with practical metrics to measure and optimize process performance beyond lab-scale efficiency