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JournalISSN: 0009-2460

Chemical Engineering 

Cambridge University Press
About: Chemical Engineering is an academic journal published by Cambridge University Press. The journal publishes majorly in the area(s): Heat transfer & Mixing (physics). It has an ISSN identifier of 0009-2460. Over the lifetime, 2340 publications have been published receiving 14461 citations.


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1,310 citations

Journal Article
TL;DR: Methode simple, pratique et rapide de readaptation d'une unite as discussed by the authors is used for distillation de petrole brut (on a considere douze scenarios possibles)
Abstract: Methode simple, pratique et rapide de readaptation d'une unite. Exemple d'application a une unite de distillation de petrole brut (on a considere douze scenarios possibles)

211 citations

Journal Article
TL;DR: In this paper, two basic strategies for reducing water demand in a chemical-process plant were discussed. One strategy consists of modifying individual process and utility units to reduce their inherent need for water.
Abstract: Environmental protection, rising costs for wastewater-treatment, and at many sites a shortage of fresh water are all persuasive motives for reducing raw water consumption and wastewater discharge at a chemical-process plant. Maximizing the re-use of water within the plant can be of great help. Systematic strategies for such maximization can lower freshwater usage and wastewater discharges by 50% or more, while also significantly reducing capital investment in treatment facilities. The typical base case or starting point for such improvements appears in a figure which shows a conventional water network in a process plant. After undergoing initial treatment, the incoming water goes in parallel streams to the various individual process units, as well as to the utility system for steam production and for use in cooling towers. Wastewater streams from the processes, along with blowdown and condensate losses from the utility system, are usually collected together and the combined stream fed to a wastewater treatment facility prior to discharge. There are two basic strategies for reducing water demand in such a plant. One strategy consists of modifying individual process and utility units to reduce their inherent need for water. Examples include replacing water cooling with air cooling, improving controls of boilermore » and cooling-tower blowdowns, and increasing the number of stages in an extraction unit that employs water as its extractant. In the other basic strategy, which is the main focus of this article, the engineer seeks opportunities to use the outlet water from one operation to satisfy the water requirement of another or the same operation. In some cases, the water may require some regeneration prior to re-use. Examples of regeneration include pH adjustment, filtration, membrane separation, sour-water stripping and ion exchange.« less

202 citations

Performance
Metrics
No. of papers from the Journal in previous years
YearPapers
20231
20222
20211
20203
20195
20182