Simulation of Industrial Production of Value Added Chemicals from Primary Resources through Pilot Plant Operations | ||||
The International Conference on Chemical and Environmental Engineering | ||||
Article 31, Volume 8, 8th International Conference on Chemical & Environmental Engineering, April 2016, Page 494-494 PDF (321.55 K) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/iccee.2016.35142 | ||||
View on SCiNiTO | ||||
Author | ||||
A. K. Ismail | ||||
Former vice President: Central Metallurgical Researchers and Development Institute, Cairo, Egypt P.O.B 87 Helwan, Cairo, Egypt Mobile: ( 02 ) 01005073650 Tel: ( 202 ) 27142452 Fax: ( 202 ) 27142451. | ||||
Abstract | ||||
Abstract Mineral resource are the backbone of industrial development. Egypt is blessed by having mostly all mineral resources in huge reserves .Generally, these minerals are exported in its crude form whereas the importing countries process it and export the products to the country of origin causing economic unbalance. Recently, the Egyptian government limits the exportation of mineral resources in its crude form. The Central Metallurgical Researchers and Development Institute (CMRDI) , Cairo , Egypt develops technologies for the production of value added products from Egyptian ores , thus maximizing its value and creating new job opportunities and encouraging investment . The technologies developed are based mainly on pilot plant testing which simulates the industrial operations. The pilot facilities include unit operations and processes of crushing , grinding , classification , flotation , magnetic separation , heavy media separation , thermally controlled reactors , solid – liquid separation by different filter types , crystallization and drying . Among the technologies developed are processing of phosphate ores for phosphoric acid and compound fertilizers, betonies for drilling fluids and binding agent for foundry sand moulds and bleaching earth for edible oils, kaolin upgrading for ceramic and paper application, white sand washing for glass and silicon manufacturing, processing of manganese ores for ferroalloys, processing of ilmenite for titanium based chemicals and many other technologies . The paper reviews some of these technologies and present a model of transferring laboratory results to industry thus narrowing the gap between theory and practice. | ||||
Keywords | ||||
Beneficiation; roasting; smelting; Reduction; Leaching; filtration; crystallization | ||||
Statistics Article View: 96 PDF Download: 156 |
||||