References
- Wang, L.; Xing, R.; Liu, S.; Yu, H.; Qin, Y.; Li, K.; Feng, J.; Li, R.; Li, P. (2010) Recovery of silver (I) using a thiourea-modified chitosan resin. Journal of Hazardous Materials, 180: 577–582. doi:10.1016/j.jhazmat.2010.04.072.
- Doyle, F.M.;. (2003) Ion flotation—its potential for hydrometallurgical operations. International Journal of Mineral Processing, 72: 387–399. doi:10.1016/S0301-7516(03)00113-3.
- Polat, H.; Erdogan, D. (2007) Heavy metal removal from waste waters by ion flotation. Journal of Hazardous Materials, 148: 267–273. doi:10.1016/j.jhazmat.2007.02.013.
- Hoseinian, F.S.; Irannajad, M.; Nooshabadi, A.J. (2015) Ion flotation for removal of Ni (II) and Zn (II) ions from wastewaters. International Journal of Mineral Processing, 143: 131–137. doi:10.1016/j.minpro.2015.07.006.
- Das, K.; Das, S.; Dhundasi, S. (2008) Nickel, its adverse health effects & oxidative stress. Indian Journal of Medical Research, 128: 412.
- Hoseinian, F.S.; Rezai, B.; Kowsari, E. (2017) The nickel ion removal prediction model from aqueous solutions using a hybrid neural genetic algorithm. Journal of Environmental Management, 204: 311–317. doi:10.1016/j.jenvman.2017.09.011.
- Hoseinian, F.S.; Rezai, B.; Kowsari, E. (2018) Optimization and separation mechanism of Ni (II) removal from synthetic wastewater using response surface method. International Journal of Environmental Science and Technology, 1–10.
- Hoseinian, F.S.; Rezai, B.; Kowsari, E.; Safari, M. (2018) Kinetic study of Ni (II) removal using ion flotation: effect of chemical interactions. Minerals Engineering, 119: 212–221. doi:10.1016/j.mineng.2018.01.028.
- Mohammed, A.A.; Ebrahim, S.E.; Alwared, A.I. (2013) Flotation and sorptive-flotation methods for removal of lead ions from wastewater using SDS as surfactant and barley husk as biosorbent. Journal of Chemistry, 2013.
- Shakir, K.; Elkafrawy, A.F.; Ghoneimy, H.F.; Beheir, S.G.E.; Refaat, M. (2010) Removal of rhodamine B (a basic dye) and thoron (an acidic dye) from dilute aqueous solutions and wastewater simulants by ion flotation. Water Research, 44: 1449–1461. doi:10.1016/j.watres.2009.10.029.
- Mavros, P.; Matis, K.A. (2013) Innovations in Flotation Technology, Vol. 208 Springer Science & Business Media.
- Doyle, F.M.; Liu, Z. (2003) The effect of triethylenetetraamine (Trien) on the ion flotation of Cu2+ and Ni2+. Journal of Colloid and Interface Science, 258: 396–403.
- Reyes, M.; Patiño, F.; Tavera, F.J.; Escudero, R.; Rivera, I.; Pérez, M. (2009) Kinetics and recovery of xanthate-copper compounds by ion flotation techniques. Journal of the Mexican Chemical Society, 53: 15–22.
- Reyes, M.; Patiño, F.; Escudero, R.; Pérez, M.; Flores, M.U.; Reyes, I.A. (2012) Kinetics and hydrodynamics of silver ion flotation. Journal of the Mexican Chemical Society, 56: 408–416.
- Walkowiak, W.; Ulewicz, M. (1999) Kinetics studies of ion flotation. Physicochemical Problems of Mineral Processing, 33: 201–214.
- Bodagh, A.; Khoshdast, H.; Sharafi, H.; Shahbani Zahiri, H.; Akbari Noghabi, K. (2013) Removal of cadmium (II) from aqueous solution by ion flotation using rhamnolipid biosurfactant as an ion collector. Industrial & Engineering Chemistry Research, 52: 3910–3917. doi:10.1021/ie400085t.
- Soliman, M.A.; Rashad, G.M.; Mahmoud, M.R. (2015) Kinetics of ion flotation of Co (II)–EDTA complexes from aqueous solutions. Radiochimica Acta, 103: 643–652. doi:10.1515/ract-2015-2390.
- Hoseinian, F.S.; Irannajad, M.; Safari, M. (2016) Effective factors and kinetics study of zinc ion removal from synthetic wastewater by ion flotation. Separation Science and Technology, 52: 892–902. doi:10.1080/01496395.2016.1267216.
- Hoseinian, F.S.; Abdollahzade, A.; Mohamadi, S.S.; Hashemzadeh, M. (2017) Recovery prediction of copper oxide ore column leaching by hybrid neural genetic algorithm. Transactions of Nonferrous Metals Society of China, 27: 686–693. doi:10.1016/S1003-6326(17)60076-1.
- Hashmi, M.Z.; Shamseldin, A.Y.; Melville, B.W. (2011) Statistical downscaling of watershed precipitation using Gene Expression Programming (GEP). Environmental Modelling & Software, 26: 1639–1646. doi:10.1016/j.envsoft.2011.07.007.
- Faradonbeh, R.S.; Armaghani, D.J.; Monjezi, M. (2016) Development of a new model for predicting flyrock distance in quarry blasting: a genetic programming technique. Bulletin of Engineering Geology and the Environment, 75: 993–1006. doi:10.1007/s10064-016-0872-8.
- Hoseinian, F.S.; Faradonbeh, R.S.; Abdollahzadeh, A.; Rezai, B.; Soltani-Mohammadi, S. (2017) Semi-autogenous mill power model development using gene expression programming. Powder Technology, 308: 61–69. doi:10.1016/j.powtec.2016.11.045.
- Ferreira, C.;. (2006) Gene Expression Programming: Mathematical Modeling by an Artificial Intelligence, Vol. 21 Springer.
- Ferreira, C.;. (2002) Gene expression programming in problem solving. Soft Computing and Industry, Springer, 635–653.
- Faradonbeh, R.S.; Armaghani, D.J.; Amnieh, H.B.; Mohamad, E.T. (2018) Prediction and minimization of blast-induced flyrock using gene expression programming and firefly algorithm. Neural Computing and Applications, 29: 269–281. doi:10.1007/s00521-016-2537-8.
- Azamathulla, H.M.; Ahmad, Z. (2012) Gene-expression programming for transverse mixing coefficient. Journal of Hydrology, 434: 142–148. doi:10.1016/j.jhydrol.2012.02.018.
- Zakaria, N.A.; Azamathulla, H.M.; Chang, C.K.; Ghani, A.A. (2010) Gene expression programming for total bed material load estimation—a case study. Science of the Total Environment, 408: 5078–5085. doi:10.1016/j.scitotenv.2010.07.048.
- Khandelwal, M.; Faradonbeh, R.S.; Monjezi, M.; Armaghani, D.J.; Majid, M.Z.B.A.; Yagiz, S. (2017) Function development for appraising brittleness of intact rocks using genetic programming and non-linear multiple regression models. Engineering with Computers, 33: 13–21. doi:10.1007/s00366-016-0452-3.