За научно-изследователската дейност през 2011 г. Директор:



Изтегляне 1.13 Mb.
страница7/10
Дата19.09.2016
Размер1.13 Mb.
#10277
1   2   3   4   5   6   7   8   9   10

Hu Dedong and Wang Weiqiang: “Prediction and correlation of the solubility for solid in SC CO2 with cosolvent using the optimized wavelets neural networks”. Computers and Applied Chemistry 26 (1) 2009.

  • Liu Hong: “Longan's oxidation resistance function and ingredient research”. PhD Thesis, Huanan University of Science and Technology, China (2006).

  • K.A. Araus, R.I. Canales, J.M. del Valle, J.C. de la Fuente: “Solubility of β-carotene in ethanol- and triolein-modified CO2”. J. Chem. Thermodynamics 43, (2011)1991-2001.

  • Ajila, C.M; Brar, S.K.; Verma, M.; Tyagi, R.D., Godbout, S., Valéro, J.R.: “Extraction and Analysis of Polyphenols: Recent trends”. Critical Reviews in Biotechnology 31. (2011) 227-249.

  • Un Teng Lam,Bioparticle Engineering Using Dense Gas Technologies”. PhD Thsesis, School of Chemical Engineering, The University of New South Wales, Sydney, Australia (2009).

  • Максудов, Рашид Наилевич: “Экспериментально-теоретическая модель взаимодействия потока сверхкритического флюида с зернистым слоем”. Диссертация доктор технических наук, Казань, Россия (2010).

    Цитирана статия:

    Hristov, H.V., Mann. R., Lossev V., Vlaev S.D.. A simplified CFD for threedimensional analysis of fluid mixing, mass transfer and bioreaction in a fermenter equipped with triple novel geometry impellers. Trans IChemE, 82, 2004, 21-34.

    Цитирано от:



    1. Delvigne Frank, Brognaux Alison, Gorret Nathalie,Sørensen J. Søren, Crine Michel and Thonart Philippe. Applicability of GFP Microbial Whole Cell Biosensors to Bioreactor Operations: Mathematical Modeling and Related Experimental Tools , In: Biosensors – Emerging Materials and Applications, (Ch. 27 ) Edited By: Pier Andrea Serra, (2011) ISBN 978-953-307-328-6, Hard cover, 630 pages , INTECH Open Access publisher of Scientific Books and Journals, Publication date: July 2011

    Цитирана статия:

    Leiknes T., M. Lazarova, H. Ødegaard, Development of a hybrid ozonation biofilm-membrane filtration process for the production of drinking water, Proceedings of WEMT, Seoul, Korea, 2004, 79-86.

    Цитирана от:


    1. F. Wicaksana, Submerged hollow fibre membranes in bubbling systems, PhD Thesis, School of Chem. Eng. And Ind. Chem., The University of New South Wales, Sydney, Australia, p. 47, 2006, p. 148.

    Цитирана статия:

    Kyuchoukov G., Marinova M., Albet J., Molinier J. New Method for the Extraction of Lactic Acid by Means of a Modified Extractant (Aliquat 336) Industrial and Engineering Chemistry Research, 43 (5) , 2004, pp. 1179-1184 ISSN: 0888-5885

    Цитирана от:



    1. Chawong, K., Rattanaphanee, P., “n-butanol as an extractant for lactic acid recovery” Proceeding of World Academy of Science Engineering and Technology 80, 2011, pp. 239-242

    2. Wasewar, K.L., Shende, D., Keshav, A., “Reactive extraction of itaconic acid using tri-n-butyl phosphate and aliquat 336 in sunflower oil as a non-toxic diluent” Journal of Chemical Technology and Biotechnology, 86(2) , 2011, pp. 319-323

    Цитирана статия:

    Marinova M., Kyuchoukov G., Albet J., Molinier J., Malmary G. “Separation of tartaric and lactic acids by means of solvent extraction” Separation and Purification Technology, 37 (3) , 2004, pp. 199-207

    Цитирана от:



    1. Min, D.-J., Choi, K.H., Chang, Y.K., Kim, J.-H., “Effect of operating parameters on precipitation for recovery of lactic acid from calcium lactate fermentation broth” Korean Journal of Chemical Engineering 28 (10) , 2011, pp. 1969-1974

    2. Kumar, S., Datta, D., Babu, B.V., “Estimation of equilibrium parameters using differential evolution in reactive extraction of propionic acid by tri-n-butyl phosphate” Chemical Engineering and Processing: Process Intensification 50(7) , 2011, pp. 614-622 ISSN 0255-2701

    3. Hubicki, Z., Goca, M., Kolodynska, D., “The effect of the presence of metatartaric acid on removal effectiveness of heavy metal ions on chelating ion exchangers” Environmental Technology 32 (8) , 2011, pp. 805-816

    4. Wasewar, K.L., Shende, D., Keshav, A., “Reactive extraction of itaconic acid using tri-n-butyl phosphate and aliquat 336 in sunflower oil as a non-toxic diluent” Journal of Chemical Technology and Biotechnology, 86(2) , 2011, pp. 319-323

    Цитирана статия:

    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, (2004) 121–136.

    Цитирана в:


    1. Yaroshchuk, X. Martınez-Llado, L. Llenas, M. Rovira, J. de Pablo: Solution-diffusion-film model for the description of pressure-driven transmembrane transfer of electrolyte mixtures. One dominant salt and trace ions”. J. Membrane Science 368, (2011) 192-201.

    2. E. Nagy, E. Kulcsar, A. Nagy: “Membrane mass transport by nanofiltration: coupled effect of the polarization and membrane layers”. J. Membrane Science 368, (2011)215-222.

    3. Percy van der Gryp: “Separation of Grubbs-based catalysts with nanofiltration”, PhD Thesis, North-West University (Potchefstroom Campus), South Africa (2008).

    4. Noqaby Mostafa Shahidi, Seyed Mohammad Razavi, Sydmhmod Mousavi, Mohammad Elahi: “Raising the efficiency of factories producing sugar from beet pulp press water treatment using diffusion back to Nanofiltration”, First National Conference on Membranes and Membrane Processes, Iran 2011-02-15

    5. Xia Jiating: “Preparation of Polyimide Solvent Resistance Nanofiltration Membrane”. MSc thesis, Beijing Chemical industry University, China (2010)

    Цитирана статия:

    Polishuk I, Stateva RP, Wisniak J, Segura H: “Simultaneous prediction of the critical and sub-critical phase behavior in mixtures using equations of state IV. Mixtures of chained n-alkanes”, Chem. Eng. Sci., 59 (3): (2004) 633-643. ISSN: 0009-2509

    Цитирана в:


    1. C.E.P. Siqueira Campos: “Estudo Do Equilíbrio De Fases Do Sistema Ternário Gás +Hexadecano + Água De Produção: Dados Experimentais E Modelagem Termodinâmica”. PhD Thesis, Engenharia Química, COPPE, Universidade Federal do Rio de Janeiro, Brasil (2009).

    2. Ana Mehl: “Estudo de Equilibrio de Fases de Hidrocarbonetos e CO2 Supercritico”, PhD Thesis, Ecola de Química, Universidade Federal do Rio de Janeiro, Brasil (2009).

    3. C.E.P. Siqueira Campos, R.C. Mirre, A.M.C. Uller, F.L.P. Pessoa: “A Thermodynamic Model to Calculate the Solubilities of Heavy Oils in Supercritical Carbon Dioxide”. Proceedings of the 11th European Meeting on Supercritical Fluids: Reactions, Materials and Natural Products Processing, 4-7 May 2008 Barcelona, Spain (2008).

    4. Y.-S. Tai, M.-T. Hsieh, M.-T. Lee, D.S.-H.Wong, S.-T. Lin: “A Priori Predictions of Critical Loci from the Combined Use of PRSV Equation of State and the COSMO-SAC Model through the MHV1 Mixing Rule”. Fluid Phase Equilibria 308, (2011)25-34.

    Цитирана статия:

    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), (2004) 2481-2492. ISSN: 0001-1541

    Цитирана в:


    1. W.Marquardt: “The Biorenewables Opportunity – Towards Next Generation. Process and Product Systems”. 1st Brazilian BioEnergy Science and Technology Conference, Campos do Jordão - August - 14 to 18, 2011, BRASIL

    Цитирана статия:

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

    Цитирана в:


    1. Bonilla-Petriciolet, А., G.P. Rangaiah, J.G. Segovia-Hernandez: “Constrained And Unconstrained Gibbs Free Energy Minimization In Reactive Systems Using Genetic Algorithm And Differential Evolution With Tabu List. Fluid Phase Equilibria 300, (2011) 120-134.

    2. S. Nima: “Phase behaviour prediction for ill-defined hydrocarbon mixtures”. PhD Thesis, Department of Chemical and Materials Engineering, University of Alberta, Edmonton, Canada (2011).

    3. Bonilla-Petriciolet, А. D.I. Mendoza-Castillo, J.G. Segovia-Hernandez, and J.C. Tapia-Picazo. "Phase equilibrium modeling in non-reactive systems using Harmony Search" in Stochastic optimization, theory and applications (In Press), INTECH (2011).

    Jani Kangas, Ilkka Malinen, and Juha Tanskanen: “Modified Bounded Homotopies in the Solving of Phase Stability Problems for Liquid–Liquid Phase Split Calculations”. Ind. Eng. Chem. Res. 50, (2011) 7003–7018. ISSN: 0888-5885

    1. H. Zhang, J.A. Fernandez-Vargas, G.P. Rangaiah, A. Bonilla-Petriciolet, J.G. Segovia-Hernandez: “Evaluation of Integrated Differential Evolution and Unified Bare-bones Particle Swarm Optimization for Phase Equilibrium and Stability problems”. Fluid Phase Equilibria 310, (2011) 129-141.

    2. A.M. Gomis, J.A. Reyes-Labarta, M.D.Serrano Cayuelas, María del Mar Olaya López: “GE Models and Algorithms for Condensed Phase Equilibrium Data Regression in Ternary Systems: Limitations and Proposals”. The Open Thermodynamics Journal 5, (2011) 48-62.

    3. H. Zhang, A. Bonilla-Petriciolet, G.P. Rangaiah:A Review on Global Optimization Methods for Phase Equilibrium Modeling and Calculations”. The Open Thermodynamics Journal 5, (2011)71-92.

    Цитиран труд:

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

    цитирана от:



    1. M.I. Gonzalez-Sanchez, J. Rubio-Retama, E. Lopez-Cabarcos, E. Valero “Development of an acetaminophen amperometric biosensor based on peroxydase entrapped in polyacrylamide microgels”, Biosensors and Bioelectronic, 26 (5), 2011, 1883-1889

    2. R. Baronas, J. Kulys, K. Petrauskas, J. Razumiene, “Modelling carbon nanotube based biosensor”, Journal of Mathematical Chemistry, 49, 2011, 995–1010

    3. S. Gabardo, R. Rech, M.A.Z. Ayub, “Determination of lactose and ethanol diffusion coefficients in calcium alginate gel spheres: predicting values to be used in immobilized bioreactors”, J. Chem. Eng. Data, 56, 2011, 2305–2309 ISSN 1520-5134

    4. María Isabel González Sánchez, “Actividades biocatalíticas dependientes de peróxido de hidrógeno. Estudio cinético de los mecanismos y diseño de biosensores específicos”, Universidad de Castilla-La Mancha, Albacete, 2010, p. 198

    5. Peng Yajuan, “Study on Biodesulfurization characteristics of immobilized resting cells and modeling”, 2007, MSc Thesis, Tianjin University

    6. E. Velickova, M. Cvetkovska, S. Kuzmanova, “A lag-time model for substrate and product diffusion through hydroxyethylcellulose gels used for immobilization, Macedonian Journal of Chemistry and Chemical Engineering, 30(1), 2011, 85-96.

    7. Karolis Petrauskas, “Kompiuterinis Sudetines Geometrijos Biojutikliu Modeliavimas”, PhD Thesis, Vilniaus universitete, 2011, p. 40

    8. Sabrina Gabardo, “Optimazação da bioconversão de lactose do soro de queijo em etanol em sistemas de biorreatores imobilizados”, Universidade federal do Rio Grande do Sul, MSc Thesis, 2011

    9. S. Niamlang, T. Buranut, Am. Niansiriр „Electrically controlled Aloe-vera extraction release from polyacrylamide hydrogel“,Energy Procedia, 9, 2011, 468–473

    Цитирана статия:

    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., 21, 2004, 63-71 ISSN 1369-703Х

    цитирана от:



    1. W. Bi, J. Zhou, K. H. Row, “Solid phase extraction of lactic acid from fermentation broth by anion-exchangable silica confined ionic liquids”, Talanta, 83( 3), 2011,974-979

    2. J. Zhou, W. Bi, K. H. Row, “Purification of lactic acid from fermentation broth by spherical anion exchange polymer”, Journal of Applied Polymer Science, 120, 2011, 2673–2677

    3. D. Datta, S. Kumar, “Reactive Extraction of Glycolic Acid Using Tri-n-Butyl Phosphate and Tri-n-Octylamine in Six Different Diluents: Experimental Data and Theoretical Predictions”, Ind. Eng. Chem. Res., 50(5), 2011, 3041–3048 SSN: 0888-5885

    4. Tian K-M., Zhou L., Chen X-Zh., Zuo Zh-R., Shi G-Y., Wang Zh-X., “Fermentation of L-lactic acid and synthesis of poly(L-lactic acid)”, China Biotechnology, 31(02), 2011, 102-115

    5. D. Datta, S. Kumar, “Reactive Extraction of 2-Methylidenebutanedioic Acid N,N-Dioctyloctan-1-amine Dissolved in Six Different Diluents: Experimental and Theoretical Equilibrium Studies at (298±1) K”, J. Chem. Eng. Data, 56 (5), 2011, 2574–2582 ISSN 1520-5134

    6. Manzak, O. Tutkun, “The extraction of lactic acid by emulsion type of liquid membranes using Alamine 336 in Escaid 100”, Can. J. Chem. Eng., 89, 2011, 1458-1463

    7. S. Kumar, D. Datta, B.V. Babu, ”Estimation of Equilibrium Parameters using Differential Evolution in Reactive Extraction of Propionic Acid by Tri-n-Butyl Phosphate”, Chemical Engineering and Processing, 50, 2011,614– 622 ISSN 0255-2701

    8. V. Hernández, J. A. Dávila, C. A. Cardona “Producción y separación de ácido láctico pro fermentación extractiva modelamiento y simulación”, XXIII Congreso Colombiano de Ingeniería Química, 24-26.08.2005, Manizales, Colombia, Memorias del congreso colombiano de ingenieros químicos, ISSN: 1692 – 925X,

    9. S. Kumar, D. Datta, B.V. Babu, ” Differential evolution approach for reactive extraction of propionic acid using tri-n-butyl phosphate (TBP) in kerosene and 1-decanol”, Materials and Manufacturing Processes, 26(9), 2011, 1222-1228

    10. L. F. Gutiérrez Mosquera “Estudio Y Diseño De Procesos Reacción Extracción Simultáneos”, Doctorado en Ingeniería, Universidad Nacional de Colombia Sede Manizales, Colombia, 2008, p. 40

    11. Yezhi Long, “Simultaneous saccharification and fermentation of food waste with the aqueous two-phase separation of lactic acid”, Shanghai Jiaotong University, PhD Thesis, 2008, pp. 18,26

    12. Xu Yalan, “Research on Extraction Intensification Based on High-speed Counter-current Process and Complexation Reaction”, MSc Thesis, Zhejiang University, 2010

    13. J. Zhou, W. Bi, and K. H. Row,” Extraction and separation of D/L-lactic acid in simulated fermentation broth”, Korean J. Chem. Eng., 28(7), 2011, 1608-1612

    14. D. Datta, S. Kumar, K. L. Wasewar, Reactive Extraction of Benzoic Acid and Pyridine-3-Carboxylic Acid Using Organophosphoric and Aminic Extractant Dissolved in Binary Diluent Mixtures, J. Chem. Eng. Data, 2011, 56 (8), 3367–3375

    15. Wenny Irawaty, Ery Susiany R, Filicia Wicaksana, Ratia W., Cynthia W., “Recovery of Lactic Acid from Traditional Market Wastes Fermentation Broth”, In: Chemeca 2006: Knowledge and Innovation. 17-20 September 2006, Auckland, New Zealand

    16. А. И. Холькин, Ю. А. Заходяева, А. А. Вошкин, В. В. Белова, “Особенности межфазного распределения слабых кислот в системах с бинарными экстрагентами, Химическая технология, 6, 2011,358-366

    17. T. Yamamoto, K. Kojima, H. Mori, H. Kawasaki ,M. Sayama, “Extraction of Lactic Acid Using Long Chain Amines Dissolved in Non-Polar Diluents”, Journal of Chemical Engineering of Japan, 44(12), 2011, 949-956 ISSN 0021-9592

    18. Yu. A. Zakhodyaeva, A. A. Voshkin, V. V. Belova, and A. I. Kholkin, “Extraction of Monocarboxylic Acids with Binary Extracting Agents Based on Amines and Quaternary Ammonium Bases”, Theoretical Foundations of Chemical Engineering, 45, (5), 2011,739–743

    Цитирана статия:

    Yordanov B., Boyadzhiev L., Pertraction of citric acid by means of emulsion liquid membranes, Journal of Membrane Science, 238(1-2), 2004, p191-197

    Цитирана от



    1. Galaction A.-I., Blaga A.C., Caşcaval D., ”Study on facilitated pertraction of folic acid in pseudosteady-state regime.”, Separation Science and Technology, V 46, Issue 6, (2011), p 912-919. ISSN 0149-6395

    2. Lee S.C., Kim H.C., ”Batch and continous separation of acetic acid from succinic acid in a feed solution with high concentrations of carboxylic acids by emulsion liquid membranes.”, Journal of Membrane Science, V 367, Issue 1-2, (2011), p 190-196.

    3. Caşcaval D.Galaction A.-I., ”Comparative analysis of the influence of solute type on facilated pertraction of cinnamic acid in pseudo-steady-state conditions.”, Chemical Engineering Communications, V 199, Issue 1, (2012), p 94-108.

    4. Omar Chtioui, These: “Production selective de lipopeptides par Bacillus subtitles en bioreacteur a disques tournants“, Universite Lille 1, Laboratoire ProBioGEM, UPRES-EA, (2011).

    Цитирана статия:

    Zhelev T., Kr. Semkov, Cleaner flue gas and energy recovery through pinch analysis, Journal of Cleaner Production, 12, (2004) 165-170.

    Цитирана от:



    1. X. L. Zhao, L. Fu, S. S. G. Zhang, Study and application of absoption gas-water heat exchange technology, Hunan Daxue Xuebao/Journal of Hunan University Natural Sciences, 36, 146-150, Issue SUPPL. 2 Dec. (2009). ISSN 16742974.

    2. J. Geldermann, M. Treitz, O. Rentz, Technique assessment for eco-industrial parks in China, Word Review of Science, Technology and Sustainable Development, 8, 1, (2010), 47-61.

    3. J. W. Bujak, Heat recovery in medical waste thermal utilization system, Prace Naukowe Instytutu Inzynierii Ochrony Srodowiska, Politechniki Wroclawskiej, Issue 89, (2010), 1-129. ISSN 00842869.

    4. B.Goortani Mostajeran, E. Mateos-Espejel, M. Moshkelani, J. Paris, Energy efficiency improvement of a Kraft process through practical stack gases heat recovery, Applied Thermal Engineering, 31(2011), 4019-4096. ISSN: 1359-4311

    5. W. Perry Johnson, A. G. Tim Langrish,.Inversion Temperature and Pinch Analysis, Ways to Thermally Optimize Drying Processes, Drying Technology, 29, 5,(2011), 488-507. ISSN: 0737-3937

    6. J. Geldermann, M. Treitz, O. Rentz, Integrated technique assessment based on the pinch analysis approach for the design of production networks, European Journal of Operation Research, 171, 3,(2006), 1020-1032 ISSN: 0377-2217

    7. J. Stano, Finding common ground: Using water and heat optimization to facilitate eco-industrial development, Thesis Master of Applied Science, University of British Columbia, Vancouver 110 (2008).

    8. B. M. Goortani, E. Mateos-Espejel, J. Paris, Heat recovery from stack gases in Kraft process to reduce steam demand, 8th Word Congress of Chemical Engineering, Montreal, Proceedinds (2009).

    Цитирана статия:

    Zhivkova S., K. Dimitrov, G. Kyuchoukov, L. Boyadzhiev, Separation of zinc and iron by pertraction in rotating film contactor with Kelex 100 as a carrier, Sep. Purif. Technol. 37, 2004, 9–16

    Цитирана от:



    1. Aneta Raszkowska-Kaczor, Piotr Adamczak, Romuald Wódzki, Hybrid rotating pertractor for Zn(II) recovery and separation, Desalination 257, 2010, 66–72

    2. Alaa S. Amin, Utility of solid-phase spectrophotometry to determine trace amounts of zinc in environmental and biological samples, Analytical Biochemistry 418 (2) , 2011, 172-179

    3. Vladimir S. Kislik, “Liquid Membranes. Princiles & Applications in Chemical Separations & Wastewater Treatment” Elsevier, 2010

    4. Omar Chtioul, “Production selective de lipopeptides par Bacillus subtilis en bioreacteur a disques tournants”These Universite Lille 1 Sciences et Technologies, 2011

    Цитирана статия:

    Boyadzhiev L., Lazarova Z., Membrane Separations Technology: Principles and Applications, Noble R.D., Stern S.A., Elsevier Science B.V., London, 2005.

    Цитирана от



    1. Panja S., Mohapata P.K., Tripathi S.C., Manchanda V.K., “Controlled pertraction of plutonium (III) under reducing conditions from acidic feeds using TODGA as the carier extractant.”, Separation Science and Technology, V 46, Issue 1(2011), p 94-104. ISSN 0149-6395

    2. Galaction A.-I., Blaga A.C., Caşcaval D., ”Study on facilitated pertraction of folic acid in pseudosteady-state regime.”, Separation Science and Technology, V 46, Issue 6, (2011), p 912-919. ISSN 0149-6395

    3. Panja S., Mohapata P.K., Misra S.K., Tripathi S.C., ”Carier facilitated transport of eurorium (III) across supported liquid membranes containing N, N, N`, N`-tetra-2-ethylhexyl-3-oxapentane-diamide (T2EHDGA) as the extractant.”, Separation Science and Technology, V 46, Issue 12, (2011), p 1941-1949. ISSN 0149-6395

    4. Wannachod P., Chaturabul S., Pancharoen U., Lothongkum A.W., Patthaveekonga W., ”The effective recovery of praseodium from mixed rare earths via a hollow fiber supported liquid membrane and its mass transfer related.”, Journal of Alloys and Compounds, V 509, Issue 2, (2011), p 354-361.

    5. Casson H.R., Chouddhari S.K., Nisola G.M., Viavas E.L., Lee D.-J., Chung W.-J., ”Partitioning of buthanol and other fermentation broth components in phosphonium and ammonium-based ionic liquids and their toxicity to solventogenic clostridia.”, Separation and purification technology, V 78, Issue 2, (2011), p 164-174.

    6. Panja S., Mohapata P.K., Tripathi S.C., Manchanda V.K., ” Facilitated transport of uranium (VI) across supported liquid membranes containing T2EHDGA as the carrier extractant.”, Journal of Hazardous Materials, V 188, Issue 1-3, (2011), p 281-287.

    7. Mohapata P.K., Igbal M., Raut D.R., Verboom W., Huskens J., Manchanda V.K., ”Evaluation of a novel tripodal diglycolamide for actinide extraction: Solvent extraction and SLM transport studies.”, Journal of Membrane Science, V 375, Issue 1-2, (2011), p 141-149.

    8. Alpaydin S., Saf A.O., Bozkurt S., Sirit A., ”Kinetic study on removal of toxic metal Cr(VI) through a bulk liquid membrane containing p-tert-butylcalix(4)arene derivative.”, Desalination, V 275, Issue 1-3, (2011), p 166-171.

    9. Ahmad A.L., Kusumastuti A., Derek C.J.C., Ooi B.S., ”Emulsion liquid membrane for heavy metal removal:An overview on emulsion stabilization and destabilization.”, Chemical Engineering Journal, V 171, Issue 3, (2011), p 870-882.

    10. Badgujar V., Rastogy N.K., ”Extraction of phenol from aquaeous effluent using triglycerides in supported liquid membrane”, Desalination and Water Treatment, V 36, Issue 1-3, (2011), p 187-196.

    11. Bhattacharyya A., Mohapatra P.K., Gadly t., Raut D.R., Ghosh S.K., Manchanda V.K., ”Liquid-liquid extraction and sheet supported liquid membrane studies on Am(III) and Eu(III) separation using 2,6-bis(5,6-dipropyl-1,2,4-triazin-3-yl)pyridine as the extractant.”, Journal of Hazardous Materials, V 195, (2011), 238-344.

    12. Caşcaval D.Galaction A.-I., ”Comparative analysis of the influence of solute type on facilated pertraction of cinnamic acid in pseudo-steady-state conditions.”, Chemical Engineering Communications, V 199, Issue 1, (2012), p 94-108.

    Цитирана статия:

    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, (2005) 5458–5471. ISSN: 0009-2509

    Цитирана в:


    1. Qian Pin: “Cordate houttuynia inoculation fluid fingerprint atlas and anti-SARS, antibacterial drug efficacy component research”, MSc Thesis, South Central University, China (2008).

    Цитиран труд:

    Burhan N., Ts. Sapundzhiev, V. Beschkov, Mathematical modeling of cyclodextrin-glucano-transferase production by batch cultivation, Biochemical Engineering Journal, 24, (2005) 73-77. ISSN 1369-703Х

    Цитирано от:


    1. Chih-lung Ko, Modeling of Biochemical System Theory with Applications to Recombinant Escherichia coli Fermentation Processes (in Chinese), PhD Thesis, National Chung Cheng University, Dept. Chem. Eng. 2007.

    2. Erliza Noor, Hidrolisis Pat1 Garut Secara Enzimatis Untuk Pembentukan Siklodekstrin, Jurnal llmu Pertanian Indonesia, 2088, vol.13(2), pp.90-94.

    3. Miled EL HAJJI, Modélisation Et Analyse Mathématiques Pour Les Écosystèmes Microbiens- Approche Par Les Systèmes Dynamiques, These Docteur des Sciences, Université Montpellier II Sciences et Techniques du Languedoc, 2010, p. 24.

    Цитирана статия:

    Danova S., Petrov K., Pavlov P., Petrova P. “Isolation and characterization of Lactobacillus strains involved in koumiss fermentation” International Journal of Dairy Technology, vol. 58 (2), (2005) 100-105.

    Цитираща статия:



    1. Ustun C. “Eski Bir Türk İçeceği: Kimiz (Koumiss)” Ph D Thesis (2009) (tubar.com.tr)

    2. Liu S., Nan Y, Zhou Z. “Lactic acid bacteria in traditional fermented Chinese foods”, Food Research International, vol. 44, (2011) 643-651.

    3. Kabak B., Dobson A. “An Introduction to the Traditional Fermented Foods and Beverages of Turkey”, Critical Reviews in Food Science and Nutrition, vol. 51 (2011), 248–260.

    4. Wang H., Shi J., Zhang H., Qi W. “A survey of some antifungal properties of lactic acid bacteria isolates from koumiss in China” International Journal of Dairy Technology vol. 64 (4), (2011) 585-590.

    Цитирана статия:

    Darakchiev, R., T. Petrova, S. Darakchiev : Gas distribution in columns with packing Raschig Super – Ring, Chemical Engineering and Processing, 44, (2005) 827 – 833. ISSN 0255-2701

    Цитирана от :



    1. Yu-qin Wang, Zheng-hua Dai, Hong Cheng, Jian-liang Xu, Fu-chen Wang : Cold modeling of a direct coupling autothermal methane reforming reactor, Chemical Engineering Journal, Chemical Engineering Journal, 168 (1) , (2011), 303-311.

    Цитирана статия:

    Dimitrov K., Metcheva D., Boyadzhiev L., “Integrated process of extraction and liquid membrane isolation of atropine from Atropa belladonna roots.”, Separation and Purification Technology, V 46, 2005, p 41-45

    Цитирана от



    1. Omar Chtioui, These : “Production selective de lipopeptides par Bacillus subtitles en bioreacteur a disques tournants“, Universite Lille 1 (2011).

    Цитирана статия:

    Elqotbi M, Montastruc L, Vlaev SD, Nikov I. CFD stimulation of gluconic acid productionр In: Magelli, F., Brucato, A. (eds.), Proc. 12th Eur Conf Mixing, AIDIC, Bologna, 2005.

    цитирано от:



    1. Lencastre Fernandes, M Nierychlo, L Lundin, AE Pedersen, PE Puentes Tellez, … A Dutta, M Carlquist, A Bolic, D Schäpper, AC Brunetti, S Helmark, AL Heins, AD Jensen, I Nopens, K Rottwitt, N Szita, JD Van Elsas, PH Nielsen, J Martinussen, SJ Sørensen, AE Lantz, KV Gernaey Experimental methods and modeling techniques for description of cell population heterogeneity, Biotechnology Advances (2011) Volume: 023106, Issue: 2006, Publisher: Elsevier Inc., Pages: 23106-23106

    Цитирана статия:

    Fornari T., A. Chafer, R.P. Stateva, and G.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), (2005), 8147-8156. ISSN: 0888-5885.

    Цитирана в:


    1. Liu Xiao Li: “Isolation and Identification of Polyphenols from Emblica (Phyllanthus Emblica L.) Fruit and Their Biological Activities”. PhD Thesis, Huanan University of Science and Technology, South China, China (2007).

    2. Xing Shao Qing: Study on the Extraction and Separation of Lotus Leaf and Its HPLC Chromatogram Fingerprint”. MSc Thesis, Wuhan University of Science and Technology, China (2009).

    Цитирана статия:

    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. 44, 2005, 5733-5739 ISSN: 0888-5885

    цитирана от:



    1. K. L. Wasewar, D. Shende, A. Keshav, “Reactive Extraction of Itaconic Acid Using Quaternary Amine Aliquat 336 in Ethyl Acetate, Toluene, Hexane, and Kerosene”, Ind. Eng. Chem. Res. 50, 2011,1003–1011 ISSN: 0888-5885

    2. Md Monwar Hossain, “Mass Transfer Investigation of Organic Acid Extraction with Trioctylamine and Aliquat 336 Dissolved in Various Solvents”, in “Mass Transfer in Multiphase Systems and its Applications”, Ed. M. El-Amin, InTech 2011, pp.367-388, ISBN 978-953-307-215-9

    3. Stojanovic, C. Morgenbesser, D. Kogelnig, R. Krachle, B. K. Keppler, “Quaternary Ammonium and Phosphonium Ionic Liquids in Chemical and Environmental Engineering”, in “Ionic liquids: Theory, Properties, New approaches”, Ed. A. Kokorin, InTech 2011, pp. 657-680, ISBN 978-953-307-349-1

    4. Yezhi Long, “Simultaneous Saccharification and Fermentation of Kitchen Wastes to Lactic Acid and Extraction of Lactate Using Aqueous Two-phase Systems”, Shanghai Jiaotong University, PhD Thesis, 2008, pp. 18, 26

    5. А. И. Холькин, Ю. А. Заходяева, А. А. Вошкин, В. В. Белова, “Особенности межфазного распределения слабых кислот в системах с бинарными экстрагентами, Химическая технология, 6, 2011, 358-366

    6. Yu. A. Zakhodyaeva, A. A. Voshkin, V. V. Belova, and A. I. Kholkin, “Extraction of Monocarboxylic Acids with Binary Extracting Agents Based on Amines and Quaternary Ammonium Bases”, Theoretical Foundations of Chemical Engineering, 45, (5), 2011, 739–743

    Цитирана статия:

    Lazarova, Z., Lazarova, M., Solvent extraction of copper from nitrate media with chelating LIX-reagents: Comparative equilibrium study, Solvent Extraction and Ion Exchange, 23 (5), (2005) pp. 695-711. ISSN: 0736-6299

    Цитирана от:



    1. С. Живкова, Селективно извличане на мед, цинк и желязо с помощта на бифункционалния екстрагент KELEX 100, Дисертация, ИИХ-БАН, София, 2009, стр. 14.

    Цитирана статия:

    Leiknes T., M. Lazarova, H. Ødegaard, Development of a hybrid ozonation biofilm-membrane filtration process for the production of drinking water, Water Science and Technology 51 (6-7) , 2005, pp. 241-248. ISSN Print: 0273-1223

    Цитирана от:



    1. H. Wang, A.A. Keller, F. Li, Natural organic matter removal by adsorption onto carbonaceous nanoparticles and coagulation, J. Environ. Eng. 136(10) , 2010, 1075-1081.

    Цитирана статия:

    Marinova M., Albet J., Molinier J., Kyuchoukov G. « Specific influence of the modifier (1-Decanol) on the extraction of tartaric acid by different extractants” Industrial and Engineering Chemistry Research, 44 (17) , 2005, pp. 6534-6538 ISSN: 0888-5885

    Цитирана от:



    1. Kumar, S., Datta, D., Babu, B.V., “Differential evolution approach for reactive extraction of propionic acid using tri-n-butyl phosphate (TBP) in kerosene and 1 decanol” Materials and Manufacturing Processes 26 (9) , 2011, pp. 1222-1228

    2. Datta, D., Kumar, S., Wasewar. K.l., “Reactive extraction of benzoic acid and pyridine-3-carboxylic acid using organophosphoric and aminic extractant dissolved in binary diluent mixtures” Journal of Chemical and Engineering Data 56 (8) , 2011, pp. 3367-3375 ISSN 1520-5134

    3. Kumar, S., Datta, D., Babu, B.V., “Estimation of equilibrium parameters using differential evolution in reactive extraction of propionic acid by tri-n-butyl phosphate” Chemical Engineering and Processing: Process Intensification 50(7) , 2011, pp. 614-622 ISSN 0255-2701.

    4. Tuyun, A.F., Uslu, H., “Investigation of picolinic acid extraction by trioctylamine” International Journal of Chemical Reactor Engineering 9 , art. no. A29, 2011

    5. Uslu,H. “Separation of picric acid with trioctyl amine (TOA) extractant in diluents” Separation Science and Technology 46 (7) , 2011, pp. 1178-1183 ISSN 0149-6395

    6. Wasewar, K.L., Shende, D., Keshav, A., “Reactive extraction of itaconic acid using tri-n-butyl phosphate and aliquat 336 in sunflower oil as a non-toxic diluent” Journal of Chemical Technology and Biotechnology, 86(2) , 2011, pp. 319-323

    Цитирана статия:

    Torz M., V. Beschkov, Biodegradation of monochloroacetic acid used as a sole carbon and energy source by Xanthobacter autotrophicus GJ10 strain in batch and continuous culture, Biodegradation, 16 (5), (2005) 423-433.

    Цитирана от:



    1. Chun-jiao Lin, Li-rong Yang, Gang Xu and Jian-ping Wu, Enhancement of haloacetate dehalogenase production by strain mutation and condition optimization, Biotechnology and Bioprocess Engineering,Volume 16, Number 5, 923-929, DOI: 10.1007/s12257-011-0186-4.

    Цитирана статия:

    Vassileva A., V. Beschkov, V. Ivanova and A. Tonkova, Continuous cyclodextrin glucanotransferase production by free and immobilized cells of Bacillus circulans ATCC 21783 in bioreactors, Process Biochemistry, 40 (10), (2005) 3290-3295. ISSN: 1359-5113

    Цитирана от:



    1. Kate Cristina Blanco, Produção de ciclodextrina glicosiltransferase por Bacillus sp subgrupo alcalophilus: Otimização por planejamento experimental, MSC Thesis, Instituto de Biociências do Campus de RioClaro, Universidade Estadual Paulista, Rio Claro, Junho – 2009, p. 19.

    2. Indira P. Sarethy, Yashi Saxena, Aditi Kapoor, Manisha Sharma, Sanjeev K. Sharma,Vandana Gupta, Sanjay Gupta, Alkaliphilic bacteria: applications in industrial biotechnology, J Ind Microbiol Biotechnol, DOI 10.1007/s10295-011-0968-x

    3. Chou-Chiang Kuo, Produce of nattokinase and cyclodextrin glucanotransferase by Bacillus sp., PhD Thesis, Tatung Univ., 2011.

    4. Kate C. Blanco, Cristian J. B. de Lima, Rubens Monti, Joaquim Martins Jr., Natalia S. Bernardi, Jonas Contiero, Bacillus lehensis—an alkali-tolerant bacterium isolated from cassava starch wastewater: optimization of parameters for cyclodextrin glycosyltransferase production, Ann. Microbiol., DOI 10.1007/s13213-011-0266-x

    5. M.A. Abdel-Naby, H.A. El-Refai, A.F. Abdel-Fattah, Biosynthesis of cyclodextrin glucosyltransferase by the free and immobilized cells of Bacillus cereus NRC7 in batch and continuous cultures, Journal of Applied Microbiology, 4 OCT 2011;DOI: 10.1111/j.1365-2672.2011.05136.x.

    Цитирана статия:

    Ulbert O., Bélafi-Bakó K., Tonova K., Gubicza L., Thermal stability enhancement of Candida rugosa lipase using ionic liquids, Biocatal. Biotransform. 23(3-4) (2005) 177-183

    Цитирана от:



    1. Zeuner B., Ståhlberg T., Van Buu O.N., Kunov-Kruse A.J., Riisager A., Meyer A.S., Dependency of the hydrogen bonding capacity of the solvent anion on the thermal stability of feruloyl esterases in ionic liquid systems, Green Chem. 13(6) (2011)1550-1557

    2. Zhao H., Baker G.A., Holmes S., Protease activation in glycerol-based deep eutectic solvents, J. Mol. Catal. B: Enz. 72(3-4) (2011) 163-167

    3. Guncheva M., Dimitrov M., Zhiryakova D., Novel nanostructured tin dioxide as promising carrier for Candida rugosa lipase, Process Biochem. 46(11) (2011) 2170-2177

    4. Klähn M., Lim G.S., Wu P., How ion properties determine the stability of a lipase enzyme in ionic liquids: a molecular dynamics study, Phys. Chem. Chem. Phys. 13(41) (2011)18647-18660

    Цитирана статия:

    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., 19(1), 2005, 17-24 ISSN 0352-9568

    цитирана от:



    1. J. Martak, L. Kubisova, S. Schlosser, “Liquid−Liquid Equilibria of 5-Methyl-2-Pyrazinecarboxylic Acid in Systems (Aqueous Solution with Increased Ionic Strength) + (Solvent with Trioctylamine)”, J. Chem. Eng. Data, 56, 2011,171–184 ISSN 1520-5134

    2. Md Monwar Hossain, “Mass Transfer Investigation of Organic Acid Extraction with Trioctylamine and Aliquat 336 Dissolved in Various Solvents”, in “Mass Transfer in Multiphase Systems and its Applications”, Ed. M. El-Amin, InTech 2011, ISBN 978-953-307-215-9, 367-388

    3. Zhang Zhiqiang, Dehydration of Methyl Lactate and Lactic Acid to Methyl Acrylate and/or Acrylic Acid: A Joint Experimental and Theoretical Study”, PhD Thesis, Beijing University of Chemical Technology, 2009, p. 5

    Цитирана статия:

    Boyadzhiev L., Dimitrova V., “Extraction and liquid membrane preconcentration of rosmarinic acid from lemon balm (Melissa officinalis L.)”, Separation Science and Technology, V 41(5), 2006, p 877-888 ISSN 0149-6395

    Цитирана от



    1. Razboršek M.I., ”Staqbility studies on trans-rosmarinic acid and GS-MS analysis of its degradation product.”, Journal of Pharmaceutical and Biomedical Analysis, V 55, Issue 5, (2011), p 1010-1016.

    2. G. Peev, P. Penchev, D. Peshev, G. Angelov, ”Solvent extraction of rosmarinic acid from lemon balm and concentrations of extracts by nanofiltration: Effect of plant pretreatment by supercritical carbon dioxide.”, Chemical Engineering Research and Design, V 89, Issue 11, (2011), p 2236-2243. ISSN 0263-8762

    3. Angelov G., Penchev P., Condoret J-C., ”Extraction of rosmarinic acid from botanicals with supercritical carbon dioxide. Effect of the modifiers added to the solvent.”, Comptes Rendus de l`Academie Bulgare des Sciences, V 64, Issue 7, (2011), p 953-958. ISSN 1310-1331

    4. B. Buralndo, L. Verotta, L. Comara, E. Bottini-Massa, “Herbal Principles in Cosmetics : Properties and Mechanics of Action.”, CRC Press, Taylor&Francis Group, (2011), p 222.

    Цитирана статия:

    Boyadzhiev L., Dimitrov K., Metcheva D., “Integration of solvent extraction and liquid membrane separation: An efficient tool for recovery of bio-active substances from botanics.”, Chemical Engineering Science, V 61(12), 2006, p 4126-4128 ISSN: 0009-2509

    Цитирана от



    1. Heema L., Roeland M., Goetheer E., Verdoes D., Keurenjes J., ”In-situ product removal from fermentations by membrane extraction: Conceptual process design and economics.”, Industrial and Engineering Reserch, V 50, Issue 15, (2011), p 9197-9208.

    2. Gu X., Hou Q., Lin Q., ”Research the equilibrium distribution of puerarin in aqueous twophase combine with temperature-induced phase separator EOPO/K2HPO4/water systems.”, Applied Mechanics and Materials, V 138-139, (2012), p 1162-1167.

    Цитирана статия:

    Brauner N., R.P. Stateva, G.St. Cholakov, M. Shacham: “A “targeted” QSPR for prediction of properties”. Computer Aided Chemical Engineering, 21, (2006) 149-154. ISBN: 978-0-444-53228-1.

    Цитирана в:


    1. Yu. E. Zevatskii, D. V. Samoilov: “Modern Methods for Estimation of Ionization Constants of Organic Compounds in Solution”. Russian Journal of Organic Chemistry.


      Каталог: WWW IChE EN -> Anual%20Reports EN BG -> Anual%20Reports EN
      Anual%20Reports EN -> За научно-изследователската дейност през 2013 г. Директор:
      Anual%20Reports EN -> И з в л е ч е н и е 2010 г. Директор: (проф дтн В. Бешков)
      Anual%20Reports EN -> За научно-изследователската дейност през 2012 г. Директор:
      WWW IChE EN -> Научен ръководител: проф дтн Серафим Влаев
      WWW IChE EN -> Основна Информация
      WWW IChE EN -> 4. научно-изследователска дейност публикации
      WWW IChE EN -> Tatyana Stefanova Petrova
      WWW IChE EN -> Personal data
      Anual%20Reports EN -> За научно-изследователската дейност през 2015 г. Директор:

      Изтегляне 1.13 Mb.

      Сподели с приятели:
    • 1   2   3   4   5   6   7   8   9   10



    ©obuch.info 2024
    отнасят до администрацията
        Начална страница
    Автореферат
    Анализ
    Бизнес-план
    Биография
    Глава
    Диплом
    Доклад
    Задача
    Закон
    Занятие
    Заседание