@article{scholars15803, year = {2021}, pages = {1667--1684}, journal = {Drying Technology}, publisher = {Taylor and Francis Ltd.}, doi = {10.1080/07373937.2021.1907754}, volume = {39}, note = {cited By 15}, number = {11}, title = {Advances in dewatering and drying in mineral processing}, issn = {07373937}, author = {Chaedir, B. A. and Kurnia, J. C. and Sasmito, A. P. and Mujumdar, A. S.}, abstract = {In mineral processing, dewatering and drying are critical aspects from the technical and economical viewpoints. These operations should be considered carefully to achieve optimal water/moisture removal with minimal energy consumption. Various mineral dewatering and drying technologies have been proposed and numerous studies on their operations/performances have been reported. The existing dewatering and drying units were generally designed empirically based on conventional technologies. Meanwhile, information on recent developments and guidelines for efficient and sustainable design of dewatering and drying units are widely dispersed creating difficulties to harness important new knowledge. This article is prepared with the main objective of providing a concise yet comprehensive overview of the progress in mineral dewatering and drying with special focus on technologies in mineral dewatering and drying developed over the last decade. Furthermore, a brief discussion of future research needs and opportunities is included from the industrial perspective. {\^A}{\copyright} 2021 Taylor \& Francis Group, LLC.}, keywords = {Dewatering; Energy utilization; Industrial research; Minerals; Printing machinery; Sustainable development, Drying technology; Drying units; Mineral processing; Minimal energy; Research needs, Drying, Drying; Energy Consumption; Minerals; Moisture; Operations; Processing; Water Removal}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85104320392&doi=10.1080\%2f07373937.2021.1907754&partnerID=40&md5=32581dbb65e38e6d3d74098f17de4f82} }