氯化钠-氯化钙混合物热处理钾长石回收钾及其机理研究

IF 1.9 4区工程技术 Q3 ENGINEERING, CHEMICAL

Chemical Engineering Communications Pub Date : 2023-07-27 DOI:10.1080/00986445.2023.2237901

S. Jena, S. Mohapatra, B. Mohanty, Ambika Prasad Nayak, Suprabha Palatasingh

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Thermal treatment of K-feldspar for potassium recovery using NaCl–CaCl2 mixture and its mechanism study

Abstract The increasing global demand for potassic fertilizer, due to the population growth, indirectly forces many countries to search for an alternative source of potassium. The present study reports the recovery of potassium from K-feldspar (K2O 12.5 wt. %) through the chlorination roasting—water leaching process applying a mixture of CaCl2 and NaCl. Individual use of NaCl and CaCl2 results in the extraction of ∼50% and 92% of potassium, respectively. Though the K-extraction is very high via CaCl2 roasting process, it adds an extra cost to the process as compared with NaCl. However, the use of salt mixture CaCl2: NaCl (40:60 wt. %) recovers potassium to the tune of ∼98% at optimum conditions (850 °C, 60 min roasting period, salt mixture: feldspar 1:1). Various experimental parameters such as temperature, time, and salt to feldspar ratio were optimized to recover maximum potassium from the complex structure of K-feldspar. The experimental results are explained using a theoretical extraction model, further supported by characterizations of the samples using XRD, SEM-EDX and FTIR studies. NOVELTY STATEMENTS Potassium extracted from K-feldspar applying a mixture of CaCl2 and NaCl. The chlorination-roasting temperature (using salt mixture) was lesser (by 50 °C) as compared with the use of individual salts. The extraction process (using salt mixture) was less expensive as compared with the use of independent salts. The K-extraction mechanism has been discussed considering the experimental results. Characterization studies support the proposed extraction mechanism.

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来源期刊

Chemical Engineering Communications 工程技术-工程：化工

CiteScore

5.50

自引率

4.00%

发文量

审稿时长

6 months

期刊介绍： Chemical Engineering Communications provides a forum for the publication of manuscripts reporting on results of both basic and applied research in all areas of chemical engineering. The journal''s audience includes researchers and practitioners in academia, industry, and government. Chemical Engineering Communications publishes full-length research articles dealing with completed research projects on subjects such as experimentation (both techniques and data) and new theoretical models. Critical review papers reporting on the current state of the art in topical areas of chemical engineering are also welcome; submission of these is strongly encouraged.