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Цитиран труд: Chafer, A., T. Fornari, A. Berna, R.P. Stateva: “Solubility of Quercetin in Supercritical CO2+Ethanol as a modifier: Measurements and Thermodynamic Modelling”, J. Supercritical Fluids, 32, 89–96 (2004).

Цитиран от:



  1. N. Palacios, R. Rodríguez, R. del C. Cabana, J. L. Zacur y Carmen, I. Viturro: “Ensayos Preliminares De Extracción De Flavonoides Empleando Co2 Supercrítico Saturado Con Etanol” III Jornadas Nacionales de Plantas Aromáticas Nativas y sus Aceites Esenciales San Salvador de Jujuy-República Argentina 29 y 30 de noviembre de 2012, Dominguezia 28(2), 80 (2012).

  2. F.E. Soetaredjo, S. Ismadji, Y.-H. Ju: “Measurement and Modeling of Epicatechin Solubility in Supercritical Carbon Dioxide Fluid”. Fluid Phase Equil. 340, 7-10 (2013).

  3. A. Erriguible, S. Laugier, M. Late, P. Subra-Paternault: “Effect of pressure and non-isothermal injection on re-crystallization byCO2 antisolvent: solubility measurements, simulation of mixing and experiments”. J. Supercritical Fluids 76, 115-125 (2013).

  4. A. Capuzzo, M. E. Maffei, A. Occhipinti: “Supercritical Fluid Extraction of Plant Flavors and Fragrances”. Molecules 18, 7194-7238 (2013).

  5. Xiong Liu, Dong-Liang Yang, Jia-Jia Liu, Kuan Xu, Guo-Hui Wu: “Modeling of supercritical fluid extraction of flavonoids from Calycopteris floribunda leaves”. Chemical Papers DOI: 10.2478/s11696-013-0451-4 (2013).

  6. Felycia Edi Soetaredjo: “SAGO (METROXYLON SAGU): Study Of Starch Acetyation And Recovery Of Phenolic Compounds From Sago Waste Effluent”. PhD thesis, National Taiwan University of Science and Technology, Department of Chemical Engineering, Taiwan (2013).

  7. M.G. Bernardo-Gil: Chapter 9 “Supercritical Extraction” in “Engineering Aspects of Food Biotechnology”. J.A. Teixeira and A.A. Vicente, Editors, CRC Press, Taylor & Francis Group LLC, Boca Raton, Fl, USA (2013). Print ISBN: 978-1-4398-9545-0 eBook ISBN: 978-1-4398-9546-7

  8. Herrero, M., Plaza, M., Cifuentes, A., Ibáñez, E.: “Extraction techniques for the determination of phenolic compounds in food”, Chapter in “Comprehensive sampling and sample preparation”, Editor: J. Pawliszyn, Elsevier B.V. © Copyright 2013.

  9. S.A.O. Santos: “Compostos fenólicos a partir de subprodutos da indústria florestal” (Phenolic compounds from forest industrial byproducts). PhD Thesis, Departamento de Química, Universidade de Aveiro, Portugal (2012).

  10. Bannu Jayallan: “The Effect Of Hibiscus Rosa-Sinensis Flower Extract On The Formation Of Foam Cells In The Aorta In Alloxan-Induced Diabetic Rat (Rattus norvegicus strain Wistar)”. MSc in Medicine, Faculty Of Medicine, Medical Program University Of Brawijaya, Malang (2010).

  11. J.S.G. Diogo: “Valorization of wild olives (Olea europaea var. sylvestris) as potential source of functional ingredients”. MSc Thesis, Universidade De Lisboa, Faculdade De Ciências, Departamento De Biologia Animal, Lisboa, Portugal (2013).



Цитиран труд: Tiziana Fornari, Amparo Chafer, Roumiana P. Stateva, and Guillermo Reglero: “A New Development in the Application of the Group Contribution Associating Equation of State To Model Solid Solubilities of Phenolic Compounds in SC-CO2”, Ind. Eng. Chem. Res. 44 (21), 8147 – 8156 (2005).

Цитиран от:



  1. Wijngaard, H. H., Trifunovic, O. and Bongers, P.: “Novel extraction techniques for phytochemicals”. in Handbook of Plant Food Phytochemicals: Sources, Stability and Extraction (eds B.K. Tiwari, N. P. Brunton and C. S. Brennan), 412–433 John Wiley & Sons Ltd, Oxford. (2013)



Цитиран труд: Balogh, J., T. Csendes, R.P. Stateva: “Application of a Stochastic Method to the Solution of the Phase Stability Problem: Cubic Equations of State”, Fluid Phase Equilibria, 212 (1-2), 257-267 (2003).

Цитиран от:



  1. Khaled Boudjlida: “Méthodes d’optimisation numérique pour le calcul de stabilité thermodynamique des phases”. PhD Thesis, L’UNIVERSITE de PAU et des PAYS de l’ADOUR ECOLE DOCTORALE DES SCIENCES EXACTES ET DE LEURS APPLICATIONS, France (2012).

  2. V. Bhargava, S.E.K. Fateen, A. Bonilla-Petriciolet: “Cuckoo Search: A New Nature-Inspired Optimization Method For Phase Equilibrium Calculations”. Fluid Phase Equilibria 337, 191-200 (2013).

Цитиран труд: Wakeham, W. A., R. P. Stateva: “Numerical Solution of the Isothermal Multiphase Flash Problem”, Reviews in Chemical Engineering J. 20 (1-2), 1 (2004).

Цитиран от:


  1. V. Bhargava, S.E.K. Fateen, A. Bonilla-Petriciolet: “CUCKOO SEARCH: A NEW NATURE-INSPIRED OPTIMIZATION METHOD FOR PHASE EQUILIBRIUM CALCULATIONS”. Fluid Phase Equilibria 337, 191-200 (2013).

  2. J.A. Fernandez-Vargas, A. Bonilla-Petriciolet, J.G. Segovia-Hernandez: “An improved Ant Colony Optimization method and its application for the thermodynamic modeling of phase equilibrium”. Fluid Phase Equilibria 353, 121-131 (2013).

Цитиран труд: Sovova, H., R.P. Stateva and A.A. Galushko: “High-pressure Equilibrium of Menthol +CO2”, J. Supercritical Fluids 41, 1–9 (2007).

Цитиран от:


  1. Zhulin Jing: “Preparation of Flavor-Containing Particles by Supercritical Technologies”. MSc Thesis, College of Chemistry and Chemical Engineering, Chemical Engineering and Biochemical Engineering Departmetn, China (2012).

  2. Nara Suankaew: “Encapsulation of menthol with PEG 6000 by rapid expansion of supercritical carbon dioxide”. PhD Thesis, Chulalongkorn University, Thailand (2011).

Цитиран труд: Cháfer, A., T. Fornari, R.P. Stateva, A. Berna and J. García-Reverter: “On the Solubility of the Natural Antioxidant Gallic Acid in Supercritical CO2 + Ethanol as a co-Solvent”, J. Chem. & Eng. Data, 52 (1), 116-121 (2007).

Цитиран от:


  1. Cheng, S.-H., Yang, F.-Ch., Yang, Y.-H., Hu, Ch.-Ch., Chang, W.-T.: “Measurements and modeling of the solubility of ergosterol in supercritical carbon dioxide. J. Taiwan Inst. Chem. Eng. 44 (1), 19-26 (2013).

  2. J.L. Marques, G.D. Porta, E. Reverchon, J.A.R.Renuncio, A.M. Mainar, Supercritical Antisolvent Extraction of Antioxidants from Grape Seeds after Vinification, The Journal of Supercritical Fluids 82, 238–243 (2013).

  3. A. Noubigh, A. Aydi, A. Mgaidi, M. Abderrabbaet: “Measurement and correlation of the solubility of gallic acid in methanol plus water systems from (293.15 to 318.15) K”. Journal of Molecular Liquids 187, 226-229 (2013)

  4. M.G. Bernardo-Gil: Chapter 9 “Supercritical Extraction” in “Engineering Aspects of Food Biotechnology”. J.A. Teixeira and A.A. Vicente, Editors, CRC Press, Taylor & Francis Group LLC, Boca Raton, Fl, USA (2013). Print ISBN: 978-1-4398-9545-0 eBook ISBN: 978-1-4398-9546-7

Цитиран труд: Fornari, T.; Stateva, R. P.; Senorans, F. J.; Reglero, G.; Ibanez, E.: “Applying UNIFAC-based models to predict the solubility of solids in subcritical water”. J. Supercrit. Fluids 46, 245-251 (2008).

Цитиран от:


  1. Özlem Güçlü, Üstündağ, Umut Güçlü, Sevcan Erşan: “Predictive Modeling of Subcritical Water Solubility with Artificial Neural Networks” Proceedings of Tenth Conference on Supercritical Fluids and Their Applications, pp 387-392. Eds. E. Reverchon, I. De Marco, Naples, Italy, April 29-May 06 (2013).

  2. P. Karasek, B. Hohnova, J. Planeta, L. Št’avikova, M. Roth: “Solubilities of selected organic electronic materials in pressurized hot water and estimations of aqueous solubilities at 298.15 K.” Chemosphere 90, 2035-2041 (2013).

Цитиран труд: Montanes F., T. Fornari, RP Stateva, A. Olano, E. Ibanez: “Solubility of carbohydrates in supercritical carbon dioxide with (ethanol+water) cosolvent.” Journal of Supercritical Fluids 49(1), 16-22 (2009).

Цитиран от:


  1. Al-Matar, Ali; Shawish, Shuruq: “Influence Of Cosolvents On The Solubility Of Cholesterol In Supercritical Carbon Dioxide”. JIChEC06, The Sixth Jordan International Chemical Engineering Conference 12-14 March 2012, Amman, Jordan (2012).

  2. Kovács, Z., Benjamins, E., Grau, K., Rehman, A. U., Ebrahimi, M., & Czermak, P.: “Recent Developments in Manufacturing Oligosaccharides with Prebiotic Functions.” Adv. Biochem Eng Biotechnol DOI: 10.1007/10-2013-237 (2013)

Цитиран труд: Coelho, J.P., K. Bernotaityte, M.A. Miraldes, A.F. Mendonsa, R.P. Stateva: “Solubility of Ethanamide and 2-Propenamide in Supercritical Carbon Dioxide. Measurements and Correlation”. J. Chem. Eng. Data 54 (9), 2546–2549 (2009).

Цитиран от:



  1. Y. Li, Z. Tang, J. Jin, Z. Zhang: “Binary and ternary solubility of amino- and nitro- benzoic acids in supercritical carbon dioxide”. Fluid Phase Equilibria 344, 71-78 (2013).

Цитиран труд: Cháfer, A., T. Fornari, R.P. Stateva, A. Berna: “Trans-Cinnamic Acid Solubility Enhancement in the Presence of Ethanol аs a Supercritical CO2 Cosolvent”. J. Chem. Eng. Data 54 (8), 2263–2268 (2009).

Цитиран от:


  1. Ying Li, Yanying Ning, Junsu Jin, and Zeting Zhang: “Solubility of 3-Aminobenzoic Acid in Supercritical Carbon Dioxide Modified by Ethanol”. J. Chem. Eng. Data 58, 2176–2180 (2013).

Цитиран труд: J.P. Coelho, A.F. Mendonça, A.F. Palavra, and R.P. Stateva: “On the Solubility of Three Disperse Anthraquinone Dyes in Supercritical Carbon Dioxide: New Experimental Data and Correlation”. Ind. Eng. Chem. Res. 50, 4618–4624 (2011).

Цитиран от:


  1. M. Banchero: “Supercritical fluid dyeing of synthetic and natural textiles – a review”. Coloration Technology 129, 2–17 (2012).

  2. H. Li, D. Jia, S. Li, R. Liu: “Correlating and predicting the solubilities of structurally similar organic solid compounds in supercritical CO2 using the compressed gas model and the reference solubilites”. Fluid Phase Equilibria 350, 13-26 (2013).

Цитиран труд: Sovová, H., A.A. Galushko, R.P. Stateva, K. Rochová, M. Sajfrtová, M. Bártlová: “Supercritical Fluid Extraction of Minor Components of Vegetable Oils: beta-sitosterol”. J. Food Engineering 101(2), 201-209 (2010)

Цитиран от:


  1. Adina Lima di Santana: “Determinacao de Parametros de Transferencia de Massa do Processo de Extracao Supercritica». MSc Thesis, Department of Chemical Engineering, Universidade Federal do para, Brasil (2013).

  2. B. Vasconcelos, O. Santos, J. Moraes, A. Marçal, L. França, N. Corrêa: “Comparative Study Of Tucumã Oil Quality From Two Different Species Extracted By Supercritical Carbon Dioxide”. Proceedings of the III Iberoamerican Conference on Supercritical Fluids, Cartagena de Indias (Colombia), 1-5 April (2013).

  3. Santos, O.V., Corrêa, N.C.F., Carvalho Jr., Costa, C.E.F., Lannes, S.C.S.: “Yield, Nutritional Quality, and Thermal-Oxidative Stability of Brazil Nut Oil (Bertolletia excelsa H.B.K) Obtained by Supercritical Extraction”. J. Food Engineering 117, 499-504 (2013).

  4. Cai Dense: “Research on Extraction and Function of Phytosterol from Mulberry Root Bark”. MSc Thesis, Jilin University, Department of Food Science and Engineering, China (2013).

  5. S.V.D. Freitas, F.A. e Silva, M.J. Pastoriza-Gallego, M.M. Piñeiro, Á.S. Lima, J.A.P. Coutinho: “Measurement and Prediction of Densities of Vegetable Oils at Pressures up to 45 MPa”. J. Chem. Eng. Data 58, 3046–3053 (2013).

Цитиран труд: Sovova, H.; Stateva, R. P. “Supercritical fluid extraction from vegetable materials”. Rev. Chem. Eng. 27, 79−156 (2011).



Цитиран от:

  1. J.O. Palafox, A. Navarrete, J.C. Sacramento-Rivero, C. Rubio-Atoche, P.A. Escoffie, J.A. Rocha-Uribe: “Extraction and Characterization of Oil from Moringa oleifera Using Supercritical CO2 and Traditional Solvents”. American Journal of Analytical Chemistry 3, 946-949 (2012).

  2. Banchero, M., Pellegrino, G., Manna, L.: “Supercritical fluid extraction as a potential mitigation strategy for the reduction of acrylamide level in coffee”. J. Food Engineering 115, 292-297 (2013).

  3. A.L. Magalhaes, F.A. Da Silva, C.M. Silva: “Free-Volume Model for the Diffusion Coefficients of Solutes at Infinite Dilution in Supercritical CO2 and Liquid H2O”. J. Supercritical Fluids 74, 89-104 (2013).

  4. R.M.A. Domingues, M.M.R. de Melo, E.L.G. Oliveira, C.P. Neto, A.J.D. Silvestre, C.M. Silva: “Optimization of the Supercritical Fluid Extraction of Triterpenic Acids from Eucalyptus globulus Bark using Experimental Design”. J. Supercritical Fluids 74, 105-114 (2013).

  5. A. Gonzalez-Coloma, L. Martín, A. M. Mainar, J. S. Urieta, B. M. Fraga, V. Rodríguez-Vallejo, C. E. Díaz: “Supercritical extraction and supercritical antisolvent fractionation of natural products from plant material: comparative results on Persea indica”. Phytochemistry Reviews 11 (4), 433-446 (2012).

  6. Andrea Capuzzo, Massimo E. Maffei and Andrea Occhipinti: “Supercritical Fluid Extraction of Plant Flavors and Fragrances”. Molecules 18, 7194-7238 (2013).

  7. M.Y. Heng, S.N. Tan, J.W.H. Yong, E.S. Ong: “Emerging green technologies for the chemical standardization of botanicals and herbal preparations”. Trends in Analytical Chemistry 50, 1-10 (2013).

  8. Andrea Occhipinti, Andrea Capuzzo, Simone Bossi, Chiara Milanesi & Massimo E. Maffei (2013): “Comparative analysis of supercritical CO2 extracts and essential oils from an Ocimum basilicum chemotype particularly rich in T-cadinol”. J. Essential Oil Research 25 (4), 272-277 (2013).

  9. A.L. Magalhaes, R.V. Vaz, R.M.G. Goncalves, F.A. DaSilva, C.M. Silva: “Accurate Hydrodynamic Models for the Prediction of Tracer Diffusivities in Supercritical Carbon Dioxide”. J. Supercritical Fluids 83, 15–27 (2013)

  10. E.M. Grima, F.G.A. Fernandez, A.R. Medina: “Downstream processing of cell mass and products”. Chapter 7, pp 267-309 in Handbook of Microalgal Culture (2nd Edition). Editors: A. Richmond, Q. Hu. Wiley-Blackwell, Chichester, UK (2013).

  11. J. Krzysztoforski, A. Krasiński, M. Henczka, W. Piątkiewicz: “Enhancement of Supercritical Fluid Extraction in Membrane Cleaning Process by Addition of Organic Solvents”. Chemical and Process Engineering 34, 403–414 (2013).

  12. M Oman, M Škerget, Z. Knez: “APPLICATION OF SUPERCRITICAL FLUID EXTRACTION FOR THE SEPARATION OF NUTRACEUTICALS AND OTHER PHYTOCHEMICALS FROM PLANT MATERIAL”. Macedonian Journal of Chemistry and Chemical Engineering 32 (2), 183–226 (2013).

Цитиран труд: Fornari, T., P. Luna, R.P. Stateva: The vdW EoS Hundred Years Later, Yet Younger than Before. Application to the Phase Equilibria Modeling of Food-Type Systems for a Green Technology”. J Supercritical Fluids 55, 579–593 (2010).

Цитиран от:


  1. Wang Qi: “Preparation of Microparticles Using Supercritical Fluid Assisted Atomization with an Enhanced Mixer”, PhD Thesis, Zhejiang University, China (2012).

  2. B. Ebrahimi, T. Hatami, J.H.Vera: “Use of a hybrid optimization method to reduce vapor-liquid equilibrium data of maverick systems: The case of carbon dioxide with 2-methoxyethanol and 2-ethoxyethanol using cubic equations of state”. Fluid Phase Equilibria 338, 46-53 (2013).

  3. L. Chronopoulou, A.C. Agatone, C. Palocci: “Supercritical CO2 extraction of oleanolic acid from grape pomace”. International Journal of Food Science & Technology 48, 1854–1860 (2013).

Цитиран труд: J.P. Coelho, and R.P. Stateva: “Solubility of Red 153 and Blue 1 in Supercritical Carbon Dioxide”. J. Chem. Eng. Data 56, 4686–4690 (2011)

Цитиран от:


  1. M. Banchero: “Supercritical fluid dyeing of synthetic and natural textiles – a review”. Coloration Technology 129, 2-17 (2012).

  2. H. Li, D. Jia, S. Li, R. Liu: “Correlating and predicting the solubilities of structurally similar organic solid compounds in supercritical CO2 using the compressed gas model and the reference solubilites”. Fluid Phase Equilibria 350, 13-26 (2013).

Цитиран труд: D. Villanueva Bermejo, E. Ibanez, R. P. Stateva, T. Fornari: “Solubility of CO2 in Ethyl Lactate and Modeling of the Phase Behavior of the CO2 + Ethyl Lactate Mixture”. J. Chem. Eng. Data 58, 301-306 (2013).

Цитиран от:


  1. A.B. Paninho, C. Barbosa, V.Najdanovic-Visak, A.V.M.Nunes: “(Ethyl lactate)-gel high pressure CO2 extraction for the processing of mesoporous gelatine particles”. The Journal of Supercritical Fluids 83, 35-40 (2013).

  2. A.B. Paninho, Aa.V.M. Nunes, A. Paiva,V. Najdanovic-Visak: “High pressure phase behaviour of the binary system (ethyl lactate + carbon dioxide)”. Fluid Phase Equilibria 360, 129-133 (2013).

Цитиран труд: T. Fornari, E. Ibañez, G. Reglero and R.P. Stateva: “Analysis of Predictive Thermodynamic Models for Estimation of Polycyclic Aromatic Solid Solubility in Hot Pressurized Water”. The Open Thermodynamics Journal 5, 40-47 (2011).

Цитиран от:


  1. S.P. Carvalho, E.F. Lucas, G. González, L.S. Spinelli : “Determining Hildebrand Solubility Parameter by Ultraviolet Spectroscopy and Microcalorimetry”. J. Braz. Chem. Soc., 1-10 (2013).

Цитиран труд: Peeva, L.G., E. Gibbins, S.S. Luthra, L.S. White, R.P. Stateva and A.G. Livingston: “Effect of Concentration Polarisation and Osmotic Pressure on Flux in Organic Solvent Nanofiltration”, J. Membrane Science, 236, 121–136 (2004).

Цитиран от:


  1. Jamaludin, Azmir: “Removal of free fatty acid from crude palm oil using organic solvent nanofiltration (OSN)”. MSc Thesis, Universiti Teknologi Malaysia, Faculty of Chemical Engineering, Malaysia (2012).

  2. Dlamini, D.S.: “Polymer composites and nanofiltration membranes and their application in water treatment”. PhD Thesis, Department of Chemistry, University of Johannesburg, Johannesburg, South Africa (2012).

  3. Tsibranska, I.H., Tylkowski, B.: “Concentration of ethanolic extracts from Sideritis ssp.L . by nanofiltration: comparison of dead-end and cross-flow modes”. Food and Bioproducts Processing 91, 169-174 (2013).

  4. DW Nel, P van der Gryp, H Neomagus, D Bessarabov: “Application of membrane technology in a base metal refinery”. The Journal of The Southern African Institute of Mining and Metallurgy 113, 363-374 (2013).

  5. Bart Van der Bruggen: “Nanofiltration” in Encyclopedia of Membrane Science and Technology. pp 1–23 DOI: 10.1002/9781118522318.emst077 Copyright © 2013 John Wiley & Sons, Inc.

  6. Stefanie Postel, Gerd Spalding, Morfula Chirnside, Matthias Wessling: “On Negative Retentions in Organic Solvent Nanofiltration”. J. Membrane Science 447, 57-65 (2013).

  7. K. Hendrix, I.F.J. Vankelecom: “Solvent-Resistant Nanofiltration Membranes”. in Encyclopedia of Membrane Science and Technology. pp 1–33. John Wiley & Sons, Inc. (2013).

  8. A. Salgado-Reyna, E. Soto-Regalado, R. Gómez-González, F.J. Cerino-Córdova, R.B. García-Reyes, M.T. Garza-González, M.M. Alcalá-Rodríguez: “Artificial neural networks for modeling the reverse osmosis unit in a wastewater pilot treatment plant”. Desalination and Water Treatment DOI:10.1080/19443994.2013.862023 (2013).

  9. Bo-Ming Yang: “Development of a hybrid membrane system for wastewater and groundwater reclamation”. PhD Thesis, Zhongshan University, Institute of Environmental Engoineering, Taiwan (2013).

Цитиран труд: Sovova, H., S.A. Aleksovski, M. Bocevska, and R.P. Stateva: “Supercritical Fluid Extraction of Essential Oils – Results of a Joint Research”, CI&CEQ, 12 (3), 168-174 (2006).

Цитиран от:


  1. L. Martín, J. L. Marqués, A. González-Coloma, A. M. Mainar, A. M. F. Palavra, J. S. Urieta: “Supercritical methodologies applied to the production of biopesticides: a review”. Phytochemistry Reviews 11 (4), 413-431 (2012).

Цитиран труд: Shacham, M., N. Brauner, G.St. Cholakov and R.P. Stateva: “Property Prediction by Correlations Based on Similarity of Molecular Structures”, AIChE J., 50 (10), 2481-2492 (2004).

Цитиран от:


  1. C Casas, C Fité, M Iborra, J Tejero, F Cunill: “Chemical Equilibrium of the Liquid-Phase Dehydration of 1-Octanol to 1-(Octyloxy) octane”. J. Chem. & Eng. Data 58, 741–748 (2013).

Цитиран труд: Brauner N., Shacham M., Cholakov G.S. and Stateva R.P.: “Property prediction by similarity of molecular structures—practical application and consistency analysis.” Chem. Eng. Sci. 60, 5458–5471 (2005).

Цитиран от:


  1. Maties, R., Szefler, B., Ionut, I., Tiperciuc, B.: “QSPR study on the chromatographic behavior of a set of thiazole derivatives by auto-correlation analysis” Studia Universitatis Babes-Bolyai Chemia 4, 121-133 (2012).

  2. José I. García, Héctor García-Marín, José A. Mayoral and Pascual Pérez: “Quantitative structure–property relationships prediction of some physico-chemical properties of glycerol based solvents”. Green Chem. 15, 2283–2293 (2013).

Цитиран труд: Brauner N, Cholakov GSt, Kahrs O, Stateva RP, Shacham M.: “Linear QSPRs for predicting pure compound properties in homologous series”. AIChE J. 54, 978-990 (2008).

Цитиран от:


  1. Bui Thi Phuong Thuy, Pham Van Tat, Le Thi Dao: “PREDICTION OF PHYSICOCHEMICAL PROPERTIES AND ANTICANCER ACTIVITY OF SIMILAR STRUCTURES OF FLAVONES AND ISOFLAVONES”. Journal of Thu Dau Mot University, No. 4 (11), 37-43 (2013).

Цитиран труд: Cholakov, G.St., R.P. Stateva, N. Brauner, M. Shacham: “Estimation of Properties of Homologous Series with Targeted Quantitative Structure Property Relationships”. J. Chem. Eng. Data 53, 2510-2520 (2008).

Цитиран от:


  1. Maties, R., Szefler, B., Ionut, I., Tiperciuc, B.: “QSPR study on the chromatographic behavior of a set of thiazole derivatives by auto-correlation analysis” Studia Universitatis Babes-Bolyai Chemia 4, 121-133 (2012).

  2. V.A. Bychinsky, A.A. Tupitsyn, K.V. Chudnenko, A.V. Mukhetdinova: “Methods for Calculating the Critical Constants of Hydrocarbons (Using the n-Alkane Series as an Example)”. J. Chem. Eng. Data 58, 3102–3109 (2013).

  3. Bui Thi Phuong Thuy, Pham Van Tat, Le Thi Dao: “PREDICTION OF PHYSICOCHEMICAL PROPERTIES AND ANTICANCER ACTIVITY OF SIMILAR STRUCTURES OF FLAVONES AND ISOFLAVONES”. Journal of Thu Dau Mot University, No. 4 (11), 37-43 (2013).

Цитиран труд: Shacham, M.; Cholakov, G.; Stateva, R.; Brauner, N. Quantitative Structure-Property Relationships for Prediction of Phase Equilibrium Related Properties. Ind. Eng. Chem. Res. 49, 900-912 (2010).

Цитиран от:


  1. Maties, R., Szefler, B., Ionut, I., Tiperciuc, B.: “QSPR study on the chromatographic behavior of a set of thiazole derivatives by auto-correlation analysis” Studia Universitatis Babes-Bolyai Chemia 4, 121-133 (2012).

Цитиран труд: E.G. Shopova, N.G. Vaklieva-Bancheva, Basic – a Genetic Algorithm for Engineering Problem Solution, Computers and Chemical Engineering, Volume 30, Issue 8, Pages 1293-1309, 2006.



Цитиран от:

  1. Miguel Bagajewicz, (2008). Optimal Preventive Maintenance Scheduling in Process Plants, LaRisa Sergent and Jeffrey Sorenson, Advanced Process Design CHE 4273, 05/02/08.

  2. Giordano, J., and Burtschell, Y., (2012). Confrontation of Genetic Algorithm Optimization Process with a New Reference Case: Analytical Study with Experimental Validation of the Deflection of a Cantilever Beam, International Journal of Advanced Science and Technology, Volume 49, Pages 105-118.

  3. Pawan Kumar Arora, Abid Haleem, M.K. Singh, Harish Kumar, (2012). Optimization of Cellular Manufacturing Systems Using Genetic Algorithms: A Review, Advanced Materials Research, Volume 622-623, Volume Manufacturing Science and Technology III, Pages 60-63.

  4. Anand, P., Venkateswarlu, Ch., and Bhagvanth Rao, M. (2013), Multistage dynamic optimization of a copolymerization reactor using differential evolution, Asia Pacific Journal of Chemical Engineering, Publisher: Wiley, Article first published online: 14 JAN 2013, doi:10.1002/apj.1710.

  5. Nakhaei, F., Mosavi, M.R., Sam, A., (2013). Recovery and grade prediction of pilot plant flotation column concentrate by a hybrid neural genetic algorithm, International Journal of Mining Science and Technology, Volume 23, Issue 1, Pages 69-77.

  6. Adel Sharifi, Majid Ghiass, Mohammad Reza Moghbeli, (2013). Application of genetic algorithm in calculation of the phase behavior of binary and ternary polymer solutions, Iranian Polymer Journal, Publisher: Springer, Volume 22, Pages 237-244.

  7. Allouani Fouad, Djamel Boukhetela and Fares Boudjema, (2013). Decentralized Sliding Mode Controller Based on Genetic Algorithm and a Hybrid approach for Interconnected Uncertain Nonlinear Systems, International Journal of Control and Automation, Volume 6, Number 1, February, Pages 61-86.

  8. WANG Jian-ling, LI Ren-ling, JIA Chun-sheng, WANG You-jing, (2011). Design and establishment of warehouse on literature of acupunture-moxibustion methods, World Journal of Acupuncture-Moxibustion, Volume 21, Issue 3.

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  12. Fadi A. O. Najadat, Ghassan G. Kanaan, Raed K. Kanaan, Omar S. Aldabbas & Riyad F. Al-Shalabi, (2013). Genetic Algorithm Solution of the Knapsack Problem Used in Finding Full Issues in the Holy Quran Based on the Number (19), Computer and Information Science, Published by Canadian Center of Science and Education, Volume 6, Number 2.

  13. Jan Brunek, Bohumir Strnadel, Ivo Dlouhy (2011), New approach to Stress-Strain Using Ball Indentation Test, Proceedings ASME 2011 Pressure Vessels and piping Conference, Volume 1, (Baltimore Maryland, July 17-21, 2011), ISBN 978-0-7918-4451-9.

  14. Vinita Kapoor, A.K. Bakhshi, (2013). Designing novel copolymers of donor–acceptor polymers using an artificial intelligence method, Super lattices and Microstructures, Volume 60, Pages 280-290.

  15. Aruna Yadav, Saurav Chandra and Sanjeev Kumar, (2013). Performance Evaluation of Two-Space Genetic Algorithm for Optimizing Load on Video on Demand Servers. International Journal of Computer Applications, Volume 70, Number 10, Pages: 42-46, Published by Foundation of Computer Science, New York, USA.

  16. Zeynep Aydiner, Genetic Programlama İle Akişkan Kontrolü Tahmini, Tobb Ekonomi ve Teknoloji Ünivrsitesi, Ankara, PhD Thesis, 2009.

  17. Suneetha Chittineni & Raveendra Babu Bhogapathi, Optimization of Neural Network Parameters to Cluster Multidimensional Data.

  18. Natalia Marchitan, Separarea Acidului Trataric Din produsele Secundare Vinicole Cu Utilizarea Anionitilor Impregnati, Universitea de Stat din Moldova, PhD Thesis, 2013.

  19. Oğuz Findik (2011). Bull Optimization Algorithm Based on Genetic Operators for Continuous Optimization Problems, Abant Izzet Baysal University, The Department of Computer Engineering, Golkoy Campus, 14280, Bolu, Turkey, Sciences, 2011 - online.journals.tubitak.gov.tr

  20. Karina Di Scala, Gustavo Meschino, Antonio Vega-Gálvez, Roberto Lemus-Mondaca, Sara Roura, Rodolfo Mascheroni, (2013). An artificial neural network model for prediction of quality characteristics of apples during convective dehydration, Food Science and Technology (Campinas), ISSN 1678-457X.

  21. Satya Eswari Jujjavarapu and Venkateswarlu Chimmiri, (2013). Evaluation of Anaerobic Biofilm Reactor Kinetic Parameters Using Ant Colony Optimization, Environmental Engineering Science, Volume 30, Number 9, Pages 527-535.

  22. Mostafa Noruzi Nashalji, Mahdi Aliyari Shoorehdeli and Mohammad Teshnehlab, (2010). Fault Detection of the Tennessee Eastman Process Using Improved PCA and Neural Classifier, International Journal of Electrical & Computer Sciences IJECS, Volume 9, Number 9, Pages 481-486.

Цитиран труд: Adonyi, R., Shopova, E., Vaklieva-Bancheva, N.G., (2009). Optimal Schedule of the Dairy Manufactury, Chemical and Biochemical Engineering Quarterly (CABEQ journal), Volume


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