За научно-изследователската дейност през 2013 г. Директор:



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Цитиран труд: Atanasova N., Ts. Kitayska, D. Yankov, M. Safarikova A. Tonkova, “Cyclodextrin glucanotransferase production by cell biocatalysts of alkaliphilic bacilli”, Biochemical Engineering Journal, 2009, 46 (3), 278-285

Цитирано от:



  1. S. Z.R. Al-Sharawi, A. S.S. Ibrahim, E. H. El-Shatoury, H. M. Gebreel, A.Eldiwany,”A new low molecular mass alkaline cyclodextrin glucanotransferase from Amphibacillus sp. NRC-WN isolated from an Egyptian soda lake”, Electronic Journal of Biotechnology, 2013, DOI: 10.2225/vol16-issue6-fulltext-18

  2. A. S. S. Ibrahim, A. A. Al-Salamah, A. M. El-Toni, M. A. El-Tayeb, Y. B. Elbadawi, “Immobilization of cyclodextrin glucanotransferase on aminopropyl-functionalized silica-coated superparamagnetic nanoparticles”, Electronic Journal of Biotechnology, 2013, DOI: 10.2225/ vol16-issue6-fulltext-8

  3. Jéssie da Natividade Schöffer, “Imobilização de ciclodextrina glicosiltransferase para produção de ciclodextrinas: catálise em batelada e catálise contínua em reator de leito fixo”, MSc Thesis, Universidade Federal do Rio Grande do Sul, 2013, p. 16

  4. Syahinaz Shahrazi, Suryani Saallah, Mohd Noriznan Mokhtar, Azhari Samsu Baharuddin, Khairul Faezah Md. Yunos, “Dynamic mathematical modelling of reaction kinetics for cyclodextrins production from different starch sources using Bacillus macerans cyclodextrin glucanotransferase”, American Journal of Biochemistry and Biotechnology, 2013, 9(2), 195-205

  5. K. Ravinder, "Bioparametric investigations for the production of cyclodextrin glycosyl transferase by submerged fermentation", PhD Thesis, Acharya Nagarjuna University, India, 2011, p. 15



Цитиран труд: Marinova N., D. Yankov, "Toxicity of some solvents and extractants towards Lactobacillus Casei cells", Bulgarian Chemical Communications, 2009, 41(4), 368-373

Цитирано от:



  1. Adelung S., Lohrengel B., L. D. Nghiem, "Selective transport of Cadmium by PVC/Aliquat 336 polymer inclusion membranes (PIMs): the role of membrane composition and solution chemistry", Membrane water treatment, 2012, 3(2), 123-131



Цитиран труд: Atanasova N, Kitayska Ts, Bojadjieva I, Yankov D, Tonkova A., “A novel cyclodextrin glucanotransferase from Bacillus pseudalcaliphilus 20RF: purification and properties.”, Process biochemistry, 2011, 46( 1), 116-122

Цитирано от:



  1. S. Z .R. Al-Sharawi, A. S. S. Ibrahim, E. H. El-Shatoury, H. M. Gebreel, A. Eldiwany,” A new low molecular mass alkaline cyclodextrin glucanotransferase from Amphibacillus sp. NRC-WN isolated from an Egyptian soda lake”, Electronic Journal of Biotechnology, 2013, DOI: 10.2225/vol16-issue6-fulltext-18

  2. A. S. S. Ibrahim, A. A. Al-Salamah, A. M. El-Toni, M. A. El-Tayeb, Y. B. Elbadawi, “Immobilization of cyclodextrin glucanotransferase on aminopropyl-functionalized silica-coated superparamagnetic nanoparticles”, Electronic Journal of Biotechnology, 2013, DOI: 10.2225/16(6)-fulltext-8

  3. Blanco KC, dos Santos FJ, Bernardi NS, Júnior MJ, Monti R, Contieri J. “Reuse of Cyclodextrin Glycosyltransferase through Immobilization on Magnetic Carriers.” Enz Eng, 2013, 2, 111. doi: 10.4172/eeg.1000111

  4. Vidya, A.S., Veena, S.M., More, S.S., "Isolation, purification and characterization of a novel CGTase from alkalophilic Bacillus lehensis SV1", BioTechnology: An Indian Journal, 2012, 6(7), 226-234

  5. Yong-Suk Lee, Yi Zhou, Dong-Ju Park, Jie Chang, Yong-Lark Choi"β-cyclodextrin production by the cyclodextrin glucanotransferase from Paenibacillus illinoisensis ZY-08: cloning, purification, and properties", World Journal of Microbiology and Biotechnology, 2013, 29, 865–873



Цитиран труд: Kyuchoukov G., D. Yankov, "Lactic Acid Extraction by means of Long Chain Tertiary Amines: a Comparative Theoretical and Experimental Study", Industrial & Engineering Chemistry Research, 2012, 51, 9117−9122

Цитирано от:



  1. Lactates-Advances in reseach and applications, Scholarly Editions, 2013, Ed. Q. Ashton Acton, p. 72

  2. Kun Wang, Weixing Li, Yiqun Fan, Weihong Xing, "Integrated Membrane Process for the Purification of Lactic Acid from a Fermentation Broth Neutralized with Sodium Hydroxide", Ind. Eng. Chem. Res., 2013, 52(6), 2412-2417



Цитиран труд: Yankov D., L. Peeva, V Beschkov, “Maltodextrin Hydrolysis with Glucoamylase Immobilized in Polyacrylamide Gel”, Starch/Stärke, 1992, 44(8), 315-318.

Цитирано от:



  1. Zifei Dai, “Co-immobilization of thermostable Alpha-amylase and Glucoamylase for starch hydrolysis”, 2011, PhD Thesis, The Ohio State University, pp. 34, 146, 147, 150



Цитиран труд: Yankov D., V. Beschkov, D. Rouleau, “Kinetics and Modelling of Enzyme Hydrolysis of Maltose with Free and Immobilised Glucoamylase”, Starch/Stärke, 1997,49(7/8) 288-293

Цитирано от:



  1. R. Sivakumar, “Enzymatic synthesis of selected phenolic and vitamin glycosides”, PhD Thesis, University of Mysore, 2008, p. 43



Цитиран труд: Ivanova V., D. Yankov, L. Kabaivanova, D. Pashkoulov, “Simultaneous biosynthesis and purification of two extracellular Bacillus hydrolases in aqueous two-phase systems”, Microbiol. Res., 2001, 156, 19-30.

Цитирано от:



  1. A.N.M. Mamun-Or-Rashid, B. K. Dash, Md. Nurul Abadin Chowdhury, M. F. Waheed and Md. Kamruzzaman Pramanik, "Exploration of Potential Baker’s Yeast from Sugarcane Juice: Optimization and Evaluation", Pakistan Journal of Biological Sciences, 2013, 16(13), 617-623

  2. Aadil Ahmad Aullybux, Daneshwar Puchooa, “α-Amylase Production on Low-Cost Substrates by Naxibacter sp. Isolated from Mauritian Soils”, British Microbiology Research Journal, 2013, 3(4), 478-491

  3. Roshan Kumar, Archana Mehta, “Isolation, Optimization and Characterization of α-Amylase from Bacillus alcalophilus”, International Journal of Science and Research, 2013, 2 (7), 171-174

  4. M. M. A. Al-ZaZaee, Sh. Neelgund, R. N. Achur, “Immobilization of Halophilic α-Amylase from Bacillus Cereus MS6 Bacteria and its Characterization”, International Journal of Applied Biotechnology and Biochemistry, 2011, 1(4), 361-374



Цитиран труд: Yankov D., “Diffusion of glucose and maltose in polyacrylamide gel”, Enzyme and Microbial Technology, 2004, 34, 603-610

Цитирано от:



  1. J. R. Roberts, J. Park, Kr. Helton, N. Wisniewski, M. J. McShane, “Biofouling of Polymer Hydrogel Materials and its Effect on Diffusion and Enzyme-Based Luminescent Glucose Sensor Functional Characteristics”, Journal of Diabetes Science and Technology, 2012, 6(6), 1267-1275

  2. Rachita Sharma, “Principles and Engineering of Self-Propelling Particles”, North Carolina State University, PhD Thesis, 2013, p. 79

  3. Li Zhirong, ”Cells Proliferation and Decay of Immobilized Nitrifiers and Nitrification Characteristics”, Shanghai Jiaotong University, PhD Thesis, 2012

  4. Seyed Ali Asgharzadehahmadi, “Synthesis and characterization of polyacrylamide based hydrogel containing magnesium oxide nanoparticles for antibacterial applications”, MSc Thesis, Universiti Teknologi Malaysia, 2012

  5. Christina Tang, "Use of Chemically Crosslinked Polymer Nanofibersfor Hyperthermophilic Enzyme Immobilization", PhD Thesis, North Carolina State University, 2012, рр. 95, 137



Цитиран труд: Yankov D., J. Molinier, J. Albet, G. Malmary, G. Kyuchoukov, “Lactic acid extraction from aqueous solutions with tri-n-octylamine dissolved in decanol and dodecane”, Biochem. Engn. J., 2004, 21, 63-71

Цитирано от:



  1. Ka Ho Yim,” Comparaison de procédés d’extraction appliqués au domaine des biotechnologies blanches”, PhD thesis, 2013, Ecole Centrale des Arts et Manufactures, Paris, France, p. 29.

  2. Z. Garncarek, B. Garncarek, “Ocena przydatności wielkocząsteczkowych amin alifatycznych do ekstrakcji kwasów jabłkowego i fumarowego”, Nauki Inżynierskie i Technologie / Uniwersytet Ekonomiczny we Wrocławiu, 2012, 4 (7), 41-53

  3. R.I.T. Supap, Ch. Saiwan, W. ElMoudir, P. Tontiwachwuthikul, Solvent recycling and reclaiming in CO2 capture processes, Pages 142-160 in Recent Progress and New Developments in Post-Combustion Carbon-Capture Technology with Reactive Solvents, (doi: 10.4155/ebo.13.361)

  4. Jongwon Kang, “Process development for production of volatile fatty acids from non-crop biomass by multy-stage continuos high cell density culture”, PhD thesis, 2010, Department of Chemical and Biomolecular Engineering, KAIST, Daejeon, Korea

  5. A. I. Kholkin, Yu. A. Zakhodyaeva, A. A. Voshkin, V. V. Belova, “Interphase Distribution of Weak Acids in Systems with Binary Extractants”, Theoretical Foundations of Chemical Engineering, 2013, 47(4), 453–460.

  6. Agnieszka Krzyżaniak, “Extractant Design for Fermentative Production of Bio-Based Chemicals”, PhD thesis, 2013, Eindhoven University of Technology, pp. 50, 169, 171

  7. Saglam D.N., "Separation of lactic acid from fermentation broth", MSc Thesis, 2011, Ankara University

  8. B.S. Chanukya, M. Kumar, N. K. Rastogi, "Optimization of lactic acid pertraction using liquid emulsion membranes by response surface methodology", Separation and Purification Technology, 2013, 111, 1-8

  9. A. I. Kholkin , V. V. Belova , Yu. A. Zakhodyaeva, A. A. Voshkin, "Solvent extraction of weak acids in binary extractant systems", Separation Science and Technology, 2013, 48, 1417–1425

  10. Dipaloy Datta, Sushil Kumar "Reactive Extraction of Pyridine Carboxylic Acids with N, N-Dioctyloctan-1-amine: Experimental and Theoretical Studies", Separation Science and Technology, 2013, 48, 898–908

  11. R. M. Geanta, M. O. Ruiz, I. Escudero, "Micellar–enhanced ultrafiltration for the recovery of lactic acid and citric acid from beet molasses with sodium dodecyl sulphate", Journal of Membrane Science, 2013, 430, 11–23

  12. B. Tang, M.Tian, K. H. Row, "Adsorption of lactic acid onto three ionic liquid-modified porous polymers", J. Appl. Polim. Sci., 2013, 129, 1306–1313,

  13. Supasit Chooklin, Lupong Kaewsichan, Jasadee Kaewsrichan, “Potential use of oil palm sap on lactic acid production and product adsorption on Dowex™ 66 resin as adsorbent”, Asia-Pac. J. Chem. Eng., 2013; 8, 23–31



Цитиран труд: Yankov D., J. Molinier, G. Kyuchoukov, J. Albet, G. Malmary, “Improvement of the lactic acid extraction. Extraction from aqueous solutions and simulated fermentation broth by means of mixed extractant and TOA, partially loaded with HCl”, Chem Biochem. Eng. Q., 2005, 19(1), 17-24

Цитирано от:



  1. S. Taskila, H. Ojamo, "The current status and future expectations in industrial production of lactic acid by lactic acid bacteria", in "Lactic Acid Bacteria – R & D for Food, Health and Livestock Purposes", Ed. M. Kongo, InTech 2013, ISBN 978-953-51-0955-6, 615-632



Цитиран труд: Kyuchoukov G., D. Yankov, J. Albet, J. Molinier, “On the mechanism of lactic acid extraction with quaternary ammonium chloride (Aliquat 336)”, Ind. & Eng. Chem. Res. 2005, 44, 5733-5739

Цитирано от:



  1. Tonova K., Svinyarov I., Bogdanov M.G., Recovery of lactic acid from aqueous sources by ionic liquids-saccharinates, Scientific Works UFT”, 2013, LX (1), 971-976

  2. Kholkin A. I., Yu. A. Zakhodyaeva, A. A. Voshkin, V. V. Belova, “Interphase Distribution of Weak Acids in Systems with Binary Extractants”, Theoretical Foundations of Chemical Engineering, 2013, 47(4), 453–460.

  3. Sunsandee N., Pr. Ramakul, U. Pancharoen, N. Leepipatpiboon “Enantioseparation of (S)-amlodipine from pharmaceutical industry wastewater by stripping phase recovery via HFSLM: polarity of diluent and membrane stability investigation”, Separation and Purification Technology, 2013, 116, 405-414

  4. Kholkin A. I., V. V. Belova, Yu. A. Zakhodyaeva, A. A. Voshkin, "Solvent extraction of weak acids in binary extractant systems", Separation Science and Technology, 2013, 48, 1417–1425



Цитиран труд: Yankov D.S., R.P. Stateva, J.P.M. Trusler, G. St. Cholakov, “Liquid-liquid equilibria in aqueous two-phase systems of poly(ethylene glycol) and poly(ethyleneimine): experimental measurements and correlation”, J. Chem. Eng. Data, 2006, 51, 1056-1061

Цитирано от:



  1. Jaime Wilson Morales Saavedra, "Estudio termodinámico de sistemas ternarios sal + PEG 4000 + agua a las temperaturas de (288.15, 298.15 Y 308.15) K", PhD Thesis, Universidad de Antofagasta, Chile, 2011, pp. 2,5.

Цитиран труд: Boyadjiev Chr., B. Ivanov, N. Vaklieva-Bancheva, C.C. Pantelides, N. Shah, Optimal Energy Integration in Antibiotics Manifacture, Computers and Chemical Engineering, Volume 20, pp. S31-S36, 1996.

Цитиран от:



  1. Seid, Esmael Reshid, On Synthesis, Design and Resources Optimization in Multipurpose Batch Plant, PhD Thesis, Faculty of Engineering, the Built Environment and Information Technology, University of Pretoria, South Africa, 2013



Цитиран труд: N.Vaklieva-Bancheva, B.B.Ivanov, N. Shah and C. C. Pantelides Heat Exchanger Network Design for Multipurpose Batch Plants, Computers and Chemical Engineering Volume 20, pp. 989-1001, 1996.

Цитиран от:



  1. Lai, Sau Man ; Wu, Hao ; Hui, Chi Wai ; Hua, Ben ; Zhang, Gaobo, Flexible Heat-Exchanger Network design for Low Temperature Heat Utilization, Asia-Pacific Journal of Chemical Engineering, (2011), v 6, pp. 713-733

  2. Li, H., Wu, L., Shang, F., Lü, S., Hu, Y., Optimal plan and scheduling of multi-stage drying system, Huagong Xuebao/CIESC Journal, Volume 63, Issue 7, July 2012, Pages 2136-2142

  3. Adekola, O., Stamp, J.D., Majozi, T., Garg, A., Bandyopadhyay, S. Unified approach for the optimization of energy and water in multipurpose batch plants using a flexible scheduling framework, Industrial and Engineering Chemistry Research, Volume 52, Issue 25, 26 June 2013, Pages 8488-8506

  4. Seid, Esmael Reshid, On Synthesis, Design and Resources Optimization in Multipurpose Batch Plant, PhD Thesis, Faculty of Engineering, the Built Environment and Information Technology, University of Pretoria, South Africa, 2013.

  5. Cecilia Pereira, Stavros Papadokonstantakis, Claude Rerat , and Konrad Hungerbuehler, Industrial Documentation Based Approach for Modeling the Process Steam Consumption in Chemical Batch Plants, Ind. Eng. Chem. Res., Just Accepted Manuscript, 2013

  6. LI Hong, WU Lianying, SHANG Fengying, LU Shiqiang, HU Yangdong, 2012, Optimal Plan and Scheduling of Multi-stage Drying System, SIESC Journal, Vol.63, N7, July 2012, DOI 10.3969/j issn.0438-1157.2012.07.020



Цитиран труд: N. Vaklieva-Bancheva, A. Espuña, E. Shopova, L. Puigjaner and B. Ivanov, “Multi-Objective Optimization of Dairy Supply Chain”, book series on Computer Aided Chemical Engineering, 24, pp. 781-786, Elsevier, 2007.

Цитиран от:



  1. Banaszewska, A., Cruijssen, F., van der Vorst, J.G.A.J.,Claassen, G.D.H., Kampman, J.L., A comprehensive dairy valorization model, Journal of Dairy Science, V 96, Issue 2, February 2013, pp 761-77



Цитиран труд: Stateva, R.P., St. Tsvetkov: Hung. J. Ind. Chem. 19, 179 (1991).

Цитиран от:



  1. Silje Kreken Almeland: “Initialization, Phase stability and Dynamic Simulation of a Thermodynamic Control Volume”. MSc Thesis, Department of Chemical Engineering, Norwegian University of Science and Technology, Norway (2011).



Цитиран труд: Stateva, R.P., St. Tsvetkov: “A Diverse Approach for the Solution of the Isothermal Multiphase Flash Problem. Application to Vapor-Liquid-liquid Systems.” Can. J. Chem. Eng., 72, 772 (1994)

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).

Цитиран труд: Stateva, R.P., W.A. Wakeham: “Phase Equilibrium Calculations for Chemically Reacting Systems”, Ind. Eng. Chem. Res. 36, 5474-5482 (1997).

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).



Цитиран труд: Cholakov, G.St., W.A. Wakeham, R.P. Stateva: Estimation of normal boiling points of hydrocarbons from descriptors of molecular structure. Fluid Phase Equilibria, 163, 21-42 (1999).

Цитиран от:



  1. Kamal I. Al-Malah: “Prediction of Normal Boiling Points of Hydrocarbons Using Simple Molecular Properties”. J. Advanced Chemical Engineering 3, 1-9 (2013).

  2. А. С. Поляк: “Нейросетевое Прогнозирование Воспламеняемости Органических Рабочих Тел”. Низкотемпературные И Пищевые Технологии В Xxi Веке C. 207–208, ISBN 978-5-89565-237-4

  3. F. Gharagheizi, S.A. Mirkhani, P. Ilani-Kashkouli, A.H. Mohammadi, D. Ramjugernath, D. Richon: “Determination of the Normal Boiling point of chemical compounds using a Quantitative Structure–Property Relationship strategy: Application to a very large dataset”. Fluid Phase Equilibria 354, 250-258 (2013).



Цитиран труд: Stateva, R. P., G.St. Cholakov, A.A. Galushko, W.A. Wakeham: “A Powerful Algorithm for Liquid-Liquid-Liquid Predictions and Calculations”. Chem. Eng. Sci., 55, 2121 (2000).

Цитиран от:



  1. S.K. Wasylkiewicz, Y.K. Li, M.A. Satyro, M.J. Wasylkiewicz: “Application of a Global Optimization Algorithm to Phase Stability and Liquid-Liquid Equilibrium Calculations”. Fluid Phase Equilibria 358, 304-318 (2013).



Цитиран труд: Sovova, H., R.P. Stateva, A.A. Galushko: “Essential Oils from Seeds. Solubility of limonene in supercritical CO2 and how it is affected by fatty oil”. J. Supercritcial Fluids, 20, 113-129 (2001).

Цитиран от:



  1. Sona RAEISSI: “On the Phenomenon of Double Retrograde Vaporization within a Study on Supercritical Deterpenation of Orange Oils with Ethane.” PhD Thesis, Technische Universiteit Delft, The Netherlands (2004).

  2. C. Gutierrez, J.F. Rodrıguez, I. Gracia, A. de Lucas, M.T. Garcıa: “DEVELOPMENT OF A STRATEGY FOR THE FOAMING OF POLYSTYRENE DISSOLUTIONS IN SCCO2.” J. Supercritical Fluids 76, 126-134 (2013).

  3. Loreto Valenzuela, José Manuel del Valle; Juan de la Fuente: “MODELLING OF CAROTENOIDS SOLUBILITY IN SUPERCRITICAL CARBON DIOXIDE USING QUANTITATIVE STRUCTURE-PROPERTY RELATIONSHIPS”. Proceedings of the III Iberoamerican Conference on Supercritical Fluids, Cartagena de Indias (Colombia), 1-5 April (2013).

  4. Hamid, Izni Atikah Abd; Mustapa, Ana Najwa; Ismail, Norhuda; Abdullah, Zalizawati, "Solubility prediction of mangosteen peel oil in Supercritical Carbon Dioxide using Neural Network." Proceedings of the Business Engineering and Industrial Applications Colloquium (BEIAC), 2013 IEEE, pp.91-96, 7-9 April, Langkawi, Malaysia (2013) doi: 10.1109/BEIAC.2013.6560269

  5. Mariateresa Russo and Rosa di Sanzo: Chapter 10: “Bergamot Peel and Leaf Extracts by Supercritical Fluids: Technology and Composition”. in “Citrus Bergamia: Bergamot and Its Derivatives”, Giovanni Dugo and Ivana Bonaccorsi Editors, CRC press, Taylor & Francis Group, Boca Raton, Florida, USA (2013). Print ISBN: 978-1-4398-6227-8; eBook ISBN: 978-1-4398-6229-2

  6. C. Gutierrez, J.F. Rodrıguez, I. Gracia, A. De Lucas, M.T. Garc´ıa, High-pressure phase equilibria of Polystyrene dissolutions in Limonene in presence of CO2, The J. Supercritical Fluids 84, 211-220 (2013).



Цитиран труд: Sovova, H., R.P. Stateva, A.A. Galushko: “Solubility of -carotene in supercritical CO2 and the effect of entrainers”. J. Supercritcial Fluids, 21, 195-203 (2001).

Цитиран от:



  1. V.A. Gil: “Recuperación De La Fracción Triglicérica De Los Aceites De Fritura Residuales Mediante Extracción Con Gases Comprimidos”. PhD Thesis, Universidad De Castilla-La Mancha, Facultad De Medio Ambiente, Toledo, SPAIN (2009).

  2. Luis Martin Navarro: “Applicacion de processos de separacion con CO2 supercritico a la produccion i optimizacion de bioplaguicidas.” PhD Thesis, Consejo Economico Y Social De Aragon, Spain (2012).

  3. O.N. Ciftci, J. Calderon, and F. Temelli: “Supercritical carbon dioxide extraction of corn distiller’s dried grains with solubles: Experiments and Mathematical Modeling”. J. Agric. Food Chem. 60 (51), 12482-12490 (2012).

  4. 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).

  5. Luz María Alzate, Duban González, Julian Londoño-Londoño: “RECOVERY OF CAROTENOIDS FROM AGROINDUSTRIAL BYPRODUCTS USING CLEAN EXTRACTION TECHNIQUES: SUPERCRITICAL FLUID EXTRACTION AND ULTRASOUND ASSISTED EXTRACTION”. Proceedings of the III Iberoamerican Conference on Supercritical Fluids, Cartagena de Indias (Colombia), 1-5 April (2013).

  6. Loreto Valenzuela, José Manuel del Valle; Juan de la Fuente: “MODELLING OF CAROTENOIDS SOLUBILITY IN SUPERCRITICAL CARBON DIOXIDE USING QUANTITATIVE STRUCTURE-PROPERTY RELATIONSHIPS”. Proceedings of the III Iberoamerican Conference on Supercritical Fluids, Cartagena de Indias (Colombia), 1-5 April (2013).

  7. Винокур, Михаил Леонидович: “Научное обоснование использования панцирьсодержащих отходов от разделки ракообразных для сверхкритической углекислотной экстракции липидно-каротиноидных комплексов”. PhD Thesis, Kaliningrad, Russia (2012).

  8. D. Cor, M. Skerged, Z. Knez: “Solubility of ternanry mixture beta-carotene – glyceril trioeate – SC CO2”. In Proceedings of the 6th International Symposium of High pressure Process Technology”, Belgrade, Serbia, September 8-11 (2013).

  9. M. Lashkarbolooki, A.Z. Hezave, Y. Rahnama, R. Ozlati, H. Rajaei, F. Esmaeilzadeh: “Solubility of Cyproheptadine in Supercritical Carbon Dioxide; Experimental and Modeling Approaches”. J. Supercritical Fluids 84, 13-19 (2013).

  10. LI Ying; JIN Junsu; ZHANG Zeting: “Modification and verification of solubility model of supercritical systems with co-solvent”. Chemical Industry and Engineering Progress 11 (2013).



Цитиран труд: Wakeham, W. A., G. St. Cholakov, R. P. Stateva: “Liquid Density and Critical Properties of Hydrocarbons Estimated from Molecular Structure”, J. Chem. Eng. Data, 47 (3), 559 – 570 (2002).

Цитиран от:



  1. I.Q. Héctor Padilla Victoria: “Derivación De Propiedades Termodinámicas A Partir De La Velocidad Del Sonido Para N-Alcanos Y 1-Alquenos En Estado Líquido”. MSc Thesis, Departamento De Ingeniería Química, Instituto Tecnológico De Celaya, Celaya, Mexico, JUNIO 2007.

  2. E. Forte, F. Llovell, J.P.M. Trusler, A. Galindo: “Application of the statistical associating fluid theory for potentials of variable range (SAFT-VR) coupled with renormalisation-group (RG) theory to model the phase equilibria and second-derivative properties of pure fluids, Fluid Phase Equilibria 337, 274-287 (2013).

  3. Zaitseva, V. Alopaeus: “Improving Group Contribution Methods by Distance Weighting”. Oil & Gas Science and Technology – Rev. IFP Energies nouvelles Copyright © 2013, IFP Energies nouvelles DOI: 10.2516/ogst/2012035



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