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23, Issue 2, Pages 231-237.

Цитиран от:


  1. Banaszewska, A., Cruijssen, F., van der Vorst, J.G.A.J., Claassen, G.D.H., Kampman, J.L., (2013). A Comprehensive Dairy Valorization Model, Journal of Dairy Science, Volume 96, Issue 2, Pages 761-779.

Цитиран труд: Vaklieva-Bancheva, N.G., Espuña, A., Shopova, E., Puigjaner L., and Ivanov, B. (2007). Multi-Objective Optimization of Dairy Supply Chain, Proceedings of European Symposium on Computer Aided Process Engineering – 17 (ESCAPE 17), (Bucharest, Romania, May 27th - May 30th, 2007), Edited by Valentin Plesu & Paul Agachi, book series on Computer Aided Chemical Engineering, Volume 24, Pages 781-786,

Цитиран от:


  1. Banaszewska, A., Cruijssen, F., van der Vorst, J.G.A.J., Claassen, G.D.H., Kampman, J.L., (2013). A Comprehensive dairy Valorization Model, Journal of Dairy Science, Volume 96, Issue 2, Pages 761-779.

Цитиран труд: M. Doichinova, O. Lavrenteva, Chr. Boyadjiev Non-linear mass transfer from a solid spherical particle dissolving in a viscous fluid Int. J. Heat Mass Transfer, 54, pp., 2998–3003, 2011.

Цитиран от:


  1. Shih, T.-M., Zheng, Y., Arie. M., Zheng, J.-C. Literature Survey of Numerical Heat Transfer (2010-2011): Part II, Numerical Heat Transfer, Part A: Applications, 64 (6), pp. 435-525, 2013.

Цитиран труд: Разказова Е., Дисертация “Създаване на пълнежи за колонни апарати за работа при екстремно ниски плътности на оросяване”, защитена на 16.01.2006 г

Цитирано от:



  1. Daniela B. Dzhonova-Atanasova, Investigation in Chemical Engineering towards Sustainable Technology, 2nd International Conference Education Science Innovations, ESI2012, European Polytechnical University, 9-10 June 2012 - Pernik, Conference Proceedings, European Polytechnical University, pp. 375-386.

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

Цитирано от:


  1. Hamdy H.S., Abo-Tahon M.A., Extracellular lipase of Aspergillus terreus var. africanus (CBS 130.55): Production, purification and characterization, Annals of Microbiol. 62(4) 1723-1736 (2012)

  2. Burney P.R., Pfaendtner J., Structural and dynamic features of Candida rugosa lipase 1 in water, octane, toluene, and ionic liquids Bmim-PF6 and BMIM-NO3, J. Phys. Chem. B 117(9) 2662-2670 (2013)

  3. Tian X., Jiang L., Yuan Y., Wang M., Guo Y., Zeng X., Li M., Pu X., Effects of water content on the tetrahedral intermediate of chymotrypsin – trifluoromethylketone in polar and non-polar media: Observations from molecular dynamics simulation, J. Mol. Modeling 19(6) 2525-2538 (2013)

Цитиран труд: Tonova Konstantza, Zdravka Lazarova, Influence of enzyme aqueous source on RME-based purification of ?-amylase, Sep. Purif. Technol. 47(1-2) 43-51 (2005)

Цитирано от:


  1. Jozala A.F., Lopes A.M., de Lencastre Novaes L.C., Mazzola P.G., Penna T.C.V., Pessoa Junior A., Aqueous two-phase micellar system for nisin extraction in the presence of electrolytes, Food Bioprocess Technol. 6(12) 3456-3461 (2013)

Цитиран труд: Tonova Konstantza, Zdravka Lazarova, Reversed micelle solvents as tools of enzyme purification and enzyme-catalyzed conversion, Biotechnol. Adv. 26(6) 516-532 (2008)

Цитирано от:


  1. Bhavya S.G., Priyanka B.S., Rastogi N.K., Reverse micelles-mediated transport of lipase in liquid emulsion membrane for downstream processing, Biotechnol. Prog. 28(6) 1542-1550 (2012)

  2. Ge J., Yang C., Zhu J., Lu D., Liu Z., Nanobiocatalysis in organic media: Opportunities for enzymes in nanostructures, Topics Catal. 55(16-18) 1070-1080 (2012)

  3. Mohamad-Aziz S.N., Mohd-Setapar S.H., Rahman R.A., Characteristic of binary mixtures AOT/Tween 85 reverse micelle for amoxicillin solubilisation, J. Bionanosci. 7(2) 195-201 (2013)

  4. Fang Z.-M., Yuan X.-Z., Zeng G.-M., Han Z.-H., Guo L.-Z., Peng X., Liu W., Huang H.-J., Optimization on the conditions of Lip-catalyzed oxidation veratryl alcohol in the micellar and reverse micellar systems, Zhongguo Huanjing Kexue/China Environm. Sci. 33(4) 734-740 (2013)

  5. He S., Shi J., Walid E., Ma Y., Xue S.J., Extraction and purification of a lectin from small black kidney bean (Phaseolus vulgaris) using a reversed micellar system, Process Biochem. 48(4) 746-752 (2013)

  6. Peng X., Yuan X.-Z., Huang H.-J., Cui K.-L., Fang Z.-M., ,Zeng G.-M., Purification progress of laccase by reversed micelle system, Zhongguo Huanjing Kexue/China Environm. Sci. 33(5) 904-909 (2013)

  7. Thogchai W., Liawruangrath B., Micellar liquid chromatographic determination of arbutin and hydroquinone in medical plant extracts and commercial cosmetic products, Int. J. Cosmetic Sci. 35(3) 257-263 (2013)

  8. Peng Z.-Y., Yuan X.-Z., Peng X., Huang H.-J., Cui K.-L., Zhao Y.-G., Catalytic performance of laccase in a biosurfactant reversed micellar system, Zhongguo Huanjing Kexue/China Environm. Sci. 33(6) 1091-1096 (2013)

  9. Santos K.C., Cassimiro D.M.J., Avelar M.H.M., Hirata D.B., de Castro H.F., Fernandez-Lafuente R., Mendes A.A., Characterization of the catalytic properties of lipases from plant seeds for the production of concentrated fatty acids from different vegetable oils, Ind. Crops Products 49 462-470

  10. Mohd-Setapar S.H., Chuong C.S., Mohamad-Aziz S.N., Solubilising water involved in amoxicillin extract using AOT/Tween 85 reverse micelles, Res. J. Chem. Environm. 17(9) 10-15 (2013)

  11. Ahmad A., Khatoon A., Mohd-Setapar S.H., Mohamad-Aziz S.N., Ahmad-Zaini M.A., Chuong C.S., Effect of parameter on forward extraction of amoxicillin by mixed reverse micelles, Res. J. Biotechnol. 8(10) 10-14 (2013)

  12. Li Q., Zhai T., Du K., Li Y., Feng W., Enzymatic activity regulated by a surfactant and hydroxypropyl ?-cyclodextrin, Colloids Surf. B: Biointerf. 112 315-321 (2013)

Цитиран труд: Tonova Konstantza, Separation of poly- and disaccharides by biphasic systems based on ionic liquids, Sep. Purif. Technol. 89 57-65 (2012)

Цитирано от:


  1. Gao J., Chen L., Yan Z., Yu S., Influence of aprotic solvents on the phase behavior of ionic liquid based aqueous biphasic systems, J. Chem. Eng. Data 58(6) 1535-1541 (2013)

  2. Розалина Керемедчиева, Милен Богданов, Екстракционни процеси с йонни течности, Bulg. J. Chem. (ISSN 1314-5894) 2(1) 15-24 (2013)

Цитиран труд: Minkova, M. Razvigorova, M. Goranova, L. Ljutzkanov, G. Angelova, "Effect of water vapour on the pyrolysis of solid fuels. I. Effect of water vapour during the pyrolysis of solid fuels on the yield and composition of the liquid products", Fuel, 1991, vol.70, pp. 713-719.

Цитирано от:


  1. Kantarelis, E., Yang, W.,Blasiak, W., Production of liquid feedstock from biomass via steam pyrolysis in a fluidized bed react, Energy and Fuels 27 (8) , pp. 4748-4759

Цитиран труд: Kolev N., S. Nakov, L. Ljutzkanov, D. Kolev, “Effective area of a highly efficient random packing”, Chem. Eng. And Proces. 45 (6), pp. 429-436. doi: 10.1016/j.cep.2005.10.008

Цитирано от:


  1. ,

  2. Wang Chao, “Measurement of Packing Effective Area and Mass Transfer Coefficients” Report Process Science and Technology Center, and the Separations Research Program, Department of Chemical Engineering, The University of Texas at Austin, January 31, (2012)

  3. H. A. Rodriguez-Flores, L. C. Mello, W. M. Salvagnini, J. L. de Paiva, “Absorption of CO2 into aqueous solutions of MEA and AMP in a wetted wall column with film promoter ”, CEP-D-13-00040R1

  4. Hanley B., “Apparatus and method of designing or optimizing a column for a separation process”, Aspen Technology, Inc. Patent WO20122015952 A2 (2012)

Цитиран труд: Banov, B., Ljutzkanov, L., Dimitrov, I., Tritonova, A., Vasilchina, H., Aleksandrova, A., Mochilov, A., Hang, B.T., Okada, S., Yamaki, J.-I., A study of nanosize Fe3O4 deposited on carbon matrix, Journal of Nanoscience and Nanotechnology, Volume 8, Issue 2, February 2008, Pages 591-594.

Цитирано от:


  1. Dawei Su B. Development of Novel Electrode Materials for Li-ion Batteries and Na-ion Batteries, PHD thesis 2013.

  2. Zhao Yu-qing, HU Chuan-yue,GUO Jun, Preparation and Electrochemical Performance of Graphene Anode Material for Lithium Ion Batteries, Journal of Hunan Institute of Humanities Science and Technology, 2013, (4)

  3. Lu, Lin, Transition-metal oxides, sulphide and sulphur composites for lithium batteries, Doctor of Philosophy thesis, Institute for Superconducting & Electronic Materials, University of Wollongong, University of Wollongong Thesis Collections. 202 p. 2012. http://ro.uow.edu.au/theses/3872

  4. Shibing Ni, Deyan He, Xuelin Yang, Tao Li, Low temperature synthesis of Fe3O4 nanoparticles and its application in lithium ion batteries, Materials Chemistry and Physics, 2011 | 130 | 3 | 1260-1264.

  5. EP 2 578 539 A1

Цитиран труд: Lazarova M., K. Dimitrov, Selective recovery of alkaloids from Glaucium flavum Crantz using integrated process extraction-pertraction, Sep. Science and Technology, 44, pp. 227–242, 2009.

Цитирано от:


  1. Zhang, H.-F., Shi, Y.-P., Pretreatment properties of CTAB coated Fe3O4 nanoparticle mixed hemimicelle sorbents for the analysis of herbal medicine samples, Current Analytical Chemistry, 8(1), pp. 150-158, 2012.

Цитиран труд: Lazarova Z., M. Lazarova, Solvent Extraction of Copper from Nitrate Media with Chelating LIX-Reagents: Comparative Equilibrium Study, Solvent Extraction and Ion Exchange, 23 (5), pp. 695 - 711, 2005.

Цитирано от:


  1. Vergel, C., Mendiguchia, C., Moreno, C., Solvent extraction-mediated fractionation of copper in waters at natural pH conditions, Sep, Sci. Technol,, 47(16), pp. 2430-2435, 2012.

Цитиран труд: Angelov G., Journe, E., Line, A., Gourdon, C., Simulation of the flow patterns in a disc and doughnut column, The Chemical engineering Journal, 45 (2), pp. 87-97, (1990).

Цитирано от:


  1. Amokran A., Charton S. et al., Study of the dispersed phase behavior in a pulsed column for oxalate precipitation in an emulsion, Ninth International Conference on CFD in the Minerals and Process Industries CSIRO, Melbourne, Australia 10-12 December 2012, 1-5.

  2. Duan C., Wang B., Liu C., Yuan X., Flow Pattern Optimization of a Sieve Plate Extraction Column Using Computational Fluid Dynamics Simulations, Industrial & engineering chemistry research, 52, 10, 3858-3867 (2013).

Цитиран труд: G. Angelov, C. Gourdon, Flow structure and turbulent flow energy in stagewise Extraction columns: Influence of Stage configuration, in Solvent extraction for the 21st century (Ed. M. Cox), 1, 463-467 ISEC’93 (1993).

Цитирано от:


  1. [CITATION][C] ??? 2006, 4 (3) 195-195 DOI: ISSN: CN??, ???, ? - hkjjz.cn ... of Annular Pulsed Column: II. System Test. [5] Angelov G., Gourdon C., Flow structure in stagewise extraction columns, ISEC'93, 1993. [6] Angelov G, Gourdon C, Line A., Simulation of Flow Hydrodynamics in a Pulsed Solvent Extraction Column under Turbulent Regimes. Chem. Eng. J. 1998, 71: 1-9.

Цитиран труд: Angelov G., Gourdon C., Line A., Simulation of flow hydrodynamics in a pulsed solvent extraction column under turbulent regimes, Chemical Engineering Journal, 71 (1), pp. 1-9 (1998).

Цитирано от:


  1. Duan C., Wang B., Liu C., Yuan X., Flow Pattern Optimization of a Sieve Plate Extraction Column Using Computational Fluid Dynamics Simulations, Industrial & engineering chemistry research, 52, 10, 3858-3867 (2013).

  2. [CITATION][C] ??? 2006, 4 (3) 195-195 DOI: ISSN: CN??, ???, ? - hkjjz.cn… of Annular Pulsed Column: II. System Test. [5] Angelov G., Gourdon C., Flow structure in stagewise extraction columns, ISEC'93, 1993. [6] Angelov G, Gourdon C, Line A., Simulation of Flow Hydrodynamics in a Pulsed Solvent Extraction Column under Turbulent Regimes. Chem. Eng. J. 1998, 71: 1-9.

Цитиран труд: Retieb S., Guiraud P., Angelov G., Gourdon C., Hold-up within two-phase countercurrent pulsed columns via Eulerian simulations. Chem Eng Sci. 62, 4558–4572 (2007).

Цитирано от:


  1. Duan C., Wang B., Liu C., Yuan X., Flow Pattern Optimization of a Sieve Plate Extraction Column Using Computational Fluid Dynamics Simulations, Industrial & engineering chemistry research, 52, 10, 3858-3867 (2013).

Цитиран труд: Angelov G., Gourdon C., Flow pattern in a pulsed-flow extraction column during the pulsation cycle, Bulgarian chemical communications, 39, 1, 65-71 (2007).

Цитирано от:


  1. Duan C., Wang B., Liu C., Yuan X., Flow Pattern Optimization of a Sieve Plate Extraction Column Using Computational Fluid Dynamics Simulations, Industrial & engineering chemistry research, 52, 10, 3858-3867 (2013).

Цитиран труд: Peev G., Penchev P., Peshev D., Angelov G., Solvent extraction of rosmarinic acid from lemon balm and concentration of extracts by nanofiltration: effect of plant pre-treatment by supercritical carbon dioxide, Chemical Engineering Research and Design, 89 (2011), pp. 2236–2243

Цитирано от:


  1. A. Zibetti, Desenvolvimento de um processo de separacao de compostos bioactivos de Rosmarinus officinalis, Tese (doutorado), Univer. Federal de Santa Catarina. Florianopolis, 2012.

  2. Lemonis I., D. Tsimogiannis, V. Louli, E. Voutsas, V. Oreopoulou, K. Magoulas, Extraction of Dittany (Origanum dictamnus) using supercritical CO2 and liquid solvent, J. of Supercritical Fluids 76 (2013) 48– 53

  3. Saltas, D; Pappas, CS; Daferera, D; Tarantilis, PA; Polissiou, MG, Direct Determination of Rosmarinic Acid in Lamiaceae Herbs Using Diffuse Reflectance Infrared Fourier Transform Spectroscopy, J. Agric. Food Chem., 61 (13), 3235-3241 (2013).

  4. I.Tsibranska, I.Saykova, Combining nanofiltration and other separation methods (Review), J of Chemical Technology and Metallurgy, 48 (4), 333-340 (2013).

  5. A.Zibetti, A.Aydi, M.Livia, A.Bolzan, D.Barth, Solvent extraction and purification of rosmarinic acid from supercritical fluid extraction fractionation waste: Economic evaluation and scale-up, J. Supercrit. Fluids, 83, 133-145 (2013).

Цитиран труд: Angelov, G., Gourdon, C., Pressure drop in pulsed extraction columns with internals of discs and doughnuts, Chemical Engineering Research and Design, 90, 7, 877 - 883 (2012).

Цитирано от:


  1. Li, Q., Zhang, M., Tang, X., Li, L., Lei, Z., Flow-guided sieve-valve tray - A novel tray with improved efficiency and hydrodynamics, Chem. Eng. Res. Design, 91, 6, 970 - 976 (2013).

  2. Walzel P., Effects and New Applications of Pulsed Flow, Chem. Eng. Tech., 36, 1, 15-21 (2013).

  3. Holdich R. G., Dragosavac M. et al. Continuous membrane emulsification with pulsed (oscilatory) flow), Ind. Eng Chem. Res., 52, 1, 507-15 (2013).

  4. Lobri E., Xuereb C., Lasuye T., Liquid-liquid dispersion in co-current disc and doughnut pulsed column: effect of the operating conditions, physical properties and material parameters, 233,24-38 (2013).

  5. Piacentini E., Drioli E., Giorno L., Pulsed back-and-forward cross-flow batch membrane emulsification with high productivity to obtain highly uniform and concentrate emulsions, J. Membr. Sci., In Press, Accepted Manuscript, Available online (2013).

Цитиран труд: Angelov G., G. Kyuchoukov, L. Boyadzhiev, D. Elenkov, ISEC’88, Moscow, USSR, July 18-24, Proc. IV (1988) 308-311.

Цитирано от:


  1. S. Zhivkova, Extraction method for selective removal and separation of metals during their transfer from hydrochloric acid to sulphuric acid medium, Bulg. J. Chem. 2 (2013) 117-132

Цитиран труд: Lazarova Z., Boyadzhieva S., Treatment of phenol-containing aqueous solutions by membrane - based solvent extraction in coupled ultrafiltration modules, Chemical Engineering Journal, 100 (1-3), pp. 129-138 (2004).

Цитирано от:


  1. Praveen, P., Loh, K.-C., Two-phase biodegradation of phenol in trioctylphosphine oxide impregnated hollow fiber membrane bioreactor, Biochemical Engineering Journal 79 , pp. 274-282, 2013

  2. Shahryari, Z., Sharifi, A.,Mohebbi, A., Artificial neural network (ANN) approach for modeling and formulation of phenol adsorption onto activated carbon, Journal of Engineering Thermophysics 22 (4) , pp. 322-336, 2013

  3. Praveen, P., Loh, K.-C., Trioctylphosphine oxide-impregnated hollow fiber membranes for removal of phenol from wastewater, Journal of Membrane Science 437 , pp. 1-6, 2013

  4. Kargari, A., Simultaneous extraction and stripping of 4-chlorophenol from aqueous solutions by emulsion liquid membrane, Desalination and Water Treatment 51 (10-12) , pp. 2275-2279, 2013

  5. Yang, G., Yan, J., Yang, H., Zhang, C., Enhanced adsorption for P-chlorophenol by ammonia modified activated carbon, Advanced Materials Research 663 , pp. 807-812, 2013

  6. Pabby, A.K., Sastre, A.M., State-of-the-art review on hollow fibre contactor technology and membrane-based extraction processes, Journal of Membrane Science 430 , pp. 263-303, 2013

  7. Hasanoglu, A., Removal of phenol from wastewaters using membrane contactors: Comparative experimental analysis of emulsion pertraction, Desalination 309 , pp. 171-180, 2013

  8. Hofman, M., Pietrzak, R., Adsorpcja fenolu z roztworow wodnych na modyfikowanych azotem adsorbentach otrzymanych z pestek sliwek | [Adsorption of phenoi from aqueous solutions on nitrogen-modified adsorbents made by carbonization of waste plum stones] Przemysl Chemiczny 91 (12) , pp. 2461-2466, 2012

Цитиран труд: Atanassova M., S. Georgieva, K. Ivancheva, Тotal phenolic and total flavonoid contents, antioxidant сapacity and biological contaminants in medicinal herbs, Journal of Chemical Technology and Metallurgy, 46, 1, 2011, 81-88.



Цитирано от:

  1. Mohammed Sulaiman, Hamzat Ibiyeye Tijani, Bashir Mohammed Abubakar, Saidu Haruna, Yusuf Hindatu, Jibrin Ndejiko Mohammed, Abdulrahman Idris, An overview of natural plant antioxidants: analysis and evaluation, Advances in Biochemistry, 2013; 1(4): 64-72

  2. A. R. Kharat, Y.S. Tarkasband, V.V. Nambiar, In vitro antioxidant activity of Kirganelia Reticulata stem, Advance research in pharmaceuticals and biologicals, 2013; Vol 3 (II)

  3. Azalina Farina Abd Aziz, Mohammad Iqbal, Antioxidant activity and phytochemical composition of Cynometra cauliflora, Journal of Experimental and Integrative Medicine, 2013; 3(4):337-341

  4. Gabriela Volkova, Biologicky aktivni latky v bylinach pro kulinarni vyuziti, Diplomova prace, 2013, Univerzita Tomase Bati ve Zline

  5. Boonsod Yardpiroon, Sangdee Aphidech, Srihanam Prasong, Phytochemical and Biological Activities of the Wild Grape Fruit Extracts Using Different Solvents, British Journal of pharmaceutical Research, 4(1): 23-36, 2014

  6. Zilha Asimovic, Almina Causevic, Davorka Zavrsnik, Selma Spirtovic-Halilovic, Belma Imamovic, Jasmin Musanovic, Determination of Total Phenols in Some Plants Used in Traditional Medicine in Bosnia and Herzegovina , International Journal of Pharmacy Teaching & Practices 2013, Vol.4, Issue 3, 716-719.

  7. Himanshu Bhusan Sahoo, Subrat Kumar Bhattamisra, Uttam Kumar Biswas, Rakesh Sagar, Estimation of total phenolics and flavonoidal contents as well as in vitro antioxidant potential of Apium leptophyllum Pers., Herba polonica, Vol. 59 No. 3 2013

  8. Agnieszka Arceusz, Marek Wesolowski, Quality consistency evaluation of Melissa officinalis L.commercial herbs by HPLC fingerprint and quantitation of selected phenolic acids, Journal of Pharmaceutical and Biomedical Analysis, Volume 83, September 2013, Pages 215-220

  9. Kais Kassim Ghaima, Noor Makie Hashim, Safaa Abdalrasool AliAntibacterial and antioxidant activities of ethyl acetate extract of nettle (Urtica dioica) and dandelion (Taraxacum officinale), Journal of Applied Pharmaceutical Science Vol. 3 (05), pp. 096-099, May, 2013

  10. Deepak Kumar Yadav and Jeena Harjit, Potential of Hydroxamic Acid in Determination of Phenol in Industrial Waste Water, Chemical and Process Engineering Research, Vol.11, 2013

  11. Jiurum Jenjira, Sangdee Sapidech, Srihanam Prasong, Phytochemical and biological activities in fresh juice extracts of wild grape fruits (AmpelocissusMartini Planch), Int J Res Ayurveda Pharm, 4(3), Juin 2013

  12. Nurdiana S., Marziana N., Wound Healing Activities of Melastoma malabathricum Leaves Extract in Sprague Dawley Rats, Int. J. Pharm. Sci. Rev. Res., 20(2), May – Jun 2013; n° 04, 20-23

  13. D. Pujol, C. Liu, J. Gominho, M.A. Olivella, N. Fiol, I. Villaescusa, H. Pereira, The chemical composition of exhausted coffee waste, Industrial Crops and Products 50 (2013) 423– 429,

  14. Murugananthan Gopal, Sathya Chethan Pabbithi and Mohan Shamanna, Determination of Total Phenolic, Flavonoid Contents and Antioxidant Potentials of Methanolic Extract Fractions of Delonix elata Barks, RGUHS J Pharm Sci , Vol 3, Issue 2, Apr–June, 2013

Цитиран труд: Atanassova, M.,Georgieva, S., Сomparative polyphenol composition and antioxidant capacity of the bulgarian plants (dry herbs), Electronic Journal of Environmental, Agricultural and Food Chemistry, 9 (9) , 2010, 1514-1523

Цитирано от:


  1. Niraj Kumarmangalam Yadav, Brajesh Nanda Vaidya, Kyle Henderson, Jennifer Frost Lee, Whitley Marshay Stewart, Sadanand Arun Dhekney, Nirmal Joshee, A Review of Paulownia Biotechnology: A Short Rotation, Fast Growing Multipurpose Bioenergy Tree, American Journal of Plant Sciences, 2013, 4, 2070-2082

  2. I. Cvetkovikj, G. Stefkov, J. Acevska, J. Petreska Stanoeva, M. Karapandzova, M. Stefova, A. Dimitrovska, S. Kulevanova, Polyphenolic characterization and chromatographic methods for fast assessment of culinary Salvia species from South East Europe, Journal of Chromatography A, 1282 (2013) 38–45

  3. “Metabolt“, DFNS Ergogenics Premium Science Driven Nutrition and Lifestyles, https: //www.dfnsergo.com/research/the-magic-of-plants/references/

Цитиран труд: Karsheva, M., Georgieva, S., Birov, G. Flow behaviour of two industrially made shampoos, J of the University of Chemical Technology and Metallurgy, 40, pp. 323-328

Цитирано от:


  1. Varcin, M., Vandael A., Plaizier-Vercammen, J. Pharmacy compounding of medicinal shampoos: an update ( review ) [aspects galeniques des shampooings medicinaux: mise a jour], Journal de pharmacie de belgique, V 67, Issue 4, p 38-48

  2. V. R. Leite, V. Zague, J. M. Gimenis, T. C. Libanio, R. Raponi, A. R. Baby, K. K. Ota, M. V. R. Velasco, T. M. Kaneko, C. De Sodio Em Xampu: Analise sensorial e avaliacao da penteabilidade de mechas de cabelo http: // www.scribd.com/doc/52725912/Artigo-Cl-sal-xampu

Цитиран труд: Karsheva M. and S. Georgieva, "Flow properties of phytocosmetic formulations. Effect of plant extracts and thickeners," Comptes Rendus de l' Academie Bulgare des Sciences, vol. 63, no. 12, pp. 1725-1732, 2010.

Цитирано от:


  1. T. Moravkova and P. Filip, The Influence of Emulsifier on Rheological and Sensory Properties of Cosmetic Lotions, Advances in Materials Sci. and Engineering, V. 2013 (2013)

Цитиран труд: Karsheva M., S. Georgieva, and S. Alexandrova, "Rheological behavior of sun protection compositions during formulation," Korean Journal of Chemical Engineering, vol. 29, no. 12, pp. 1806-1811, 2012

Цитирано от:


  1. Tereza Moravkova and Petr Filip, The Influence of Emulsifier on Rheological and Sensory Properties of Cosmetic Lotions, Advances in Materials Science and Engineering Volume 2013 (2013)

Цитиран труд: Karsheva M., S. Georgieva, S. Handjieva, The choice of the thickener - a way to improve the cosmetics sensory properties, J. Uni. Chem. Techn. Metal. 42, (2007), 187-194.

Цитирано от:



  1. Knorst, M. T.; Xavier, B.B., Development and evaluation of physical stability of shampoos containing different thickeners, 9th International Congress of Pharmaceutical Sciences, CIFARP-2013, , Brazil, November 20-23.

Цитиран труд: Darakchiev S., Kr. Semkov, “Study of modern high effective random packings for ethanol-water rectification”, Chem. Eng. Technol., 31 (7), 2008, 1039-1045.

Цитирано от:


  1. F. Dias Mayer, R. Scopel Hoffman, R Hoffman, An innovative project involving an appropriate hybrid distillation system for small-scale ethanol fuel production, Chemical Engineering communication, 200:563-574, 2013.

  2. Soares, R. B. (2010). Estudo da destilacao extrativa salina em coluna recheada para a producao de etanol. Master Thesis, PPGEQ/UFRRJ, Seropedica, Rio de Janeiro, Brazil

Цитиран труд: Petrova T., R. Darakchiev, Kr. Semkov, S. Darakchiev, “Estimations of gas flow maldistribution in packed-bed columns, Chem. Eng. Technol., 31, No.12, 2008, 1723-1729.

Цитирано от:



  1. Molnar Aron Gabor, Cercetari asupra curgerilor post-darcy in medii permeabile, Tezei de doctorat, Universitatea Tehnica, Iasi, 2013.

Цитиран труд: Darakchiev S., R. Darakchiev, Gas flow maldistribution in ceramic Honeycomb packing, Bulg. Chem Commun., 2010, 42, No 1, 51-54.

Цитирано от:


  1. Илия Илиев, Методи и средства за ефективно оползотворяване на отпадъчна топлина от нископотенциални парогазови потоци, Монография, Издателски комплекс при Русенски университет, 2013.

Цитиран труд: Darakchiev S., Gas flow maldistribution in columns with HOLPACK packing, Bulg. Chem Commun., 2010, 42, No 4, 323-326.

Цитирано от:


  1. Илия Илиев, Методи и средства за ефективно оползотворяване на отпадъчна топлина от нископотенциални парогазови потоци, Монография, Издателски комплекс при Русенски университет, 2013.

Цитиран труд: Nakov Sv., N. Kolev, L. Ljutzkanov and D. Kolev, “Comparison of the effective area of some highly effective packings”, Chem. Eng and Processing, 46 (2007) 1385-1390.

Цитирано от:


  1. Hanley B., “Apparatus and method of designing or optimizing a column for a separation process”, Aspen Technology, Inc. Patent WO20122015952 A2 (2012)

  2. Raynal L., A. Gomez, B. Caillat and Y. HarounCO2 Capture Cost Reduction: Use of a Multiscale Simulations Strategy for a Multiscale Issue, Oil & Gas Science and Technology – Rev. IFP Energies nouvelles (2013), IFP Energies nouvelles, DOI: 10.2516/ogst/2012104

Цитиран труд: Kolev N., S. Nakov, L. Ljutzkanov, D. Kolev, Comparison of the effective surfice area of some highly effective random pickings third and second generation. Distilation and absorption 2006, 4-6 September 2006 London. Institution of chemical engineering, Symp. series No12, (2006), 754.

Цитирано от:


  1. Steven Jan Martin de Rijkes “CO2 removal by Amine Absorption and Condensed Rotattional Separation: Energy Consumption & Equipment Sizinvg " (2012). Graduate Theses Master of Science. Department of Mechanical Engineering Technical University Eindhoven, Document Number: WPT201214.

Цитиран труд: Labbaci A., Douani M., Albet, J., Kyuchoukov, G., Treatment of effluents issued from agro-food industries by liquid-liquid extraction of malic and lactic acid using tri-n-octylamine and tri-n-butylphosphate, Industrial and Engineering Chemistry Research, 51 (38) , pp. 12471-12478, 2012

Цитирано от:


  1. Fang, S., Zuo, X.-B., Xu, X.-J., Ren, D.-H., Density, viscosity and excess molar volume of binary mixtures of tri-n-octylamine + diluents (n-heptane, n-octane, n-nonane, and n-decane) at various temperatures, Journal of Chemical Thermodynamics 68 , pp. 281-287, 2014

Цитиран труд: Labbaci A., Kyuchoukov, G., Albet, J., Molinier, J., Detailed investigation of lactic acid extraction with tributylphosphate dissolved in dodecane, Journal of Chemical and Engineering Data 55 (1) , pp. 228-233, 2010

Цитирано от:


  1. Fang, S., Zuo, X.-B., Xu, X.-J., Ren, D.-H., Density, viscosity and excess molar volume of binary mixtures of tri-n-octylamine + diluents (n-heptane, n-octane, n-nonane, and n-decane) at various temperatures, Journal of Chemical Thermodynamics 68 , pp. 281-287, 2014

Цитиран труд: Bouraqadi A.I., Albet, J., Kyuchoukov, G., Molinier, J., Model based on reaction in the aqueous phase for liquid-liquid extraction of monocarboxylic acids, Industrial and Engineering Chemistry Research, 46 (15) , pp. 5192-5198, 2007

Цитирано от:


  1. Athankar, K.K., Varma, M.N., Shende, D.Z., Yoo, C.K., Wasewar, K.L., Reactive extraction of phenylacetic acid with Tri-n-butyl phosphate in benzene, hexanol, and rice bran oil at 298 K, Journal of Chemical and Engineering Data 58 (11) , pp. 3240-3248, 2013

  2. Russell, T.H., Counce, R.M., Watson, J.S.,Spencer, B.B., Del Cul, G.D., Water Content of Organic Solvents and their Relationship to Extraction of Nitric and Acetic Acid from UREX+ Streams, Separation Science and Technology (Philadelphia) 48 (14) , pp. 2164-2169, 2013

Цитиран труд: Kyuchoukov, G., Labbaci A., Albet, J., Molinier, J., Simultaneous influence of active and “Inert” diluents on the extraction of lactic acid by means of Tri-n-octylamine (TOA) and Tri-wo-octylamine (TIOA), Industrial and Engineering Chemistry Research, 45 (2) , pp. 503-510, 2006

Цитирано от:


  1. Chanukya, B.S., Kumar, M., Rastogi, N.K., Optimization of lactic acid pertraction using liquid emulsion membranes by response surface methodology, Separation and Purification Technology111 , pp. 1-8, 2013

  2. Krzyzaniak, A., Leeman, M., Vossebeld, F., Visser, T.J., Schuur, B., De Haan, A.B., Novel extractants for the recovery of fermentation derived lactic acid, Separation and Purification Technology111 , pp. 82-89, 2013

  3. Leepipatpiboon, N., Pancharoen, U., Ramakul, P., Separation of Co(II) and Ni(II) from thiocyanate media by hollow fiber supported liquid membrane containing Alamine300 as carrier - investigation on polarity of diluent and membrane stability, Korean Journal of Chemical Engineering 30 (1) , pp. 194-200, 2013

  4. Tonova K., Svinyarov I., Bogdanov M.G., Recovery of lactic acid from aqueous sources by ionic liquids-saccharinates, Scientific Works “Food science, engineering and Technologies - 2013” Volume LX (1), ISSN 1314-7102, pp. 971-976, 2013

Цитиран труд: 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


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