@article{1437956,
      author = {Daneș, Florin. and Daneş, Silvia. and Petrescu, Valeria.  and Ungureanu, Eleonora-Mihaela,},
      url = {http://library.usi.edu/record/1437956},
      title = {Molecular physical chemistry for engineering applications  /},
      publisher = {Springer,},
      abstract = {This textbook introduces the molecular side of physical  chemistry. It offers students and practitioners a new  approach to the subject by presenting numerous applications  and solved problems that illustrate the concepts introduced  for varied and complex technical situations. The book  offers a balance between theory, tools, and practical  applications. The text aims to be a practical manual for  solving engineering problems in industries where processes  depend on the chemical composition and physical properties  of matter. The book is organized into three main topics:  (I) the molecular structure of matter, (II) molecular  models in thermodynamics, and (III) transport phenomena and  mechanisms. Part I presents methods of analysis of the  molecular behavior in a given system, while the following  parts use these methods to study the equilibrium states of  a material system and to analyze the processes that can  take place when the system is in a state of  non-equilibrium, in particular the transport phenomena.  Molecular Physical Chemistry for Engineering Applications  is designed for upper-level undergraduate and graduate  courses in physical chemistry for engineers, applied  physical chemistry, transport phenomena, colloidal  chemistry, and transport/transfer processes. The book will  also be a valuable reference guide for engineers,  technicians, and scientists working in industry. Offers  modeling techniques and tools for solving exercises and  practical cases; Provides solutions and conclusions so  students can follow results more closely; Step-by-step  problem solving enables students to understand how to  approach complex issues.},
      doi = {https://doi.org/10.1007/978-3-030-63896-2},
      recid = {1437956},
      pages = {1 online resource (1 volume)},
      address = {Cham :},
      year = {2021},
}