Chemical Engineering – Environment, Sustainability and the Future

A special issue of Processes (ISSN 2227-9717). This special issue belongs to the section "Chemical Processes and Systems".

Deadline for manuscript submissions: closed (5 March 2024) | Viewed by 956

Special Issue Editors


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Guest Editor
Department of Chemical and Biochemical Engineering, Thompson Engineering Building (# 469), Western University, London, ON N6A 5B9, Canada
Interests: process systems engineering; optimization; chemical process development; water purification; photocatalysis; simulated moving bed; modeling and simulation
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Guest Editor
Department of Chemical Engineering, University of Calcutta, Kolkata 700073, India
Interests: environmental engineering; nano technology

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Guest Editor Assistant
Department of Chemical Engineering, University of Calcutta, Kolkata 700073, India
Interests: separation and purification processes; sustainability; environmental technology

Special Issue Information

Dear Colleagues,

The world is changing faster than ever before, and technological advancement is the main driving force. Environmental sustainability, alternative energy, development of smart materials, state-of-the-art separation technology, and novel reactor and process design are the major advancing areas in recent times, to the aim of satisfying the increasing market requirements for specific end-use properties of the products required by the consumers. For the successful operation of any industrial process or plant, particularly chemical and process ones, it has become essential to consider the social impacts on environmental and sustainability issues. To achieve an environment friendly atmosphere, sustainability problems spanning multiple scales—from molecular levels through to chemical plants and finally to enterprises and the macroeconomic level—need to be addressed. In such a context of globalization vis à vis activities, services, and product impacts on the environment, sustainability may be redefined. It is, however, difficult to find useful sustainability criteria and ready-to-use guidance tools for the design of products, processes, and production systems for maintaining a balance between the environment and the ‘molecules into money’ concept. Chemical engineers have a distinctive role to play in the planning, analysis, and implementation of sustainable developments with a vision to save the environment. The articles to be published in this Special Issue are selected articles that will be presented at the International Symposium on Chemical Engineering—Environment, Sustainability and the Future, 22-24 December 2023, to be held at the University College of Science & Technology, Kolkata, India. The International aims to bring together researchers, academicians, professionals, policymakers, scientists, industry delegates, research scholars, and UG/PG students from all over the world under one roof to interact, deliberate, share, and present their research work, ideas, and innovations related to recent advances in environment, energy, sustainability, and advanced materials.

Prof. Dr. Ajay Kumar Ray
Prof. Dr. Asim Kumar De
Guest Editors

Dr. Baisali Rajbansi
Guest Editor Assistant

Manuscript Submission Information

Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.

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Keywords

  • environment
  • sustainability
  • energy
  • materials
  • separation process
  • reaction engineering
  • optimal process design
  • modeling

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Published Papers (1 paper)

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Research

14 pages, 4095 KiB  
Article
Controlled Micro–Nano-Scale Droplet Generation via Spin Dewetting
by Vinod Vanarse, Bolleddu Ravi, Srijita De, Saurabh Dubey and Dipankar Bandyopadhyay
Processes 2024, 12(8), 1562; https://doi.org/10.3390/pr12081562 - 25 Jul 2024
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Abstract
A combined theoretical and experimental study is presented to investigate the interplay of forces in the spin-dewetting process in order to achieve enhanced control over droplet generation. In this regard, toluene–polystyrene (PS) film is spin dewetted on a solid substrate to generate an [...] Read more.
A combined theoretical and experimental study is presented to investigate the interplay of forces in the spin-dewetting process in order to achieve enhanced control over droplet generation. In this regard, toluene–polystyrene (PS) film is spin dewetted on a solid substrate to generate an array of droplets. The underlying mechanisms of the spin dewetting of the films into the droplets are explained with the help of a theoretical model followed by a long-wave linear stability analysis (LWLSA). Stabilizing forces like solution viscosity and surface tension play essential roles. The study uncovers that the centripetal force stretches the film radially outward, before it becomes ultrathin and undergoes dewetting under the influence of van der Waals forces, while the surface tension force acts as a stabilizing influence. On the other hand, the viscous force kinetically stabilizes the system to expedite or delay drop formation on the substrate. An imbalance of these factors ultimately decides the droplet spacing, which leads to interesting morphologies such as singlet, doublet, triplet, and clusters of droplets at specific PS concentrations in the range 0.0001–0.0005%, with a ~10–14 nm average droplet height. The experimental data revealed that, at ~3000 rpm, PS (0.01–0.1%) results in critical droplet spacings of λmax~98–172 μm, leading to immediate dewetting and uniform droplet formation. Our theoretical predictions are in close agreement with the experimental results, validating the present model. The insights gained in this work provide a foundation by presenting a robust framework for controlled droplet generation by optimizing process parameters to achieve the desired droplet size, distribution, and uniformity. The findings have broad applications in material science, biomedical engineering, and related disciplines. Full article
(This article belongs to the Special Issue Chemical Engineering – Environment, Sustainability and the Future)
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