За научно-изследователската дейност през 2012 г. Директор:

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:

78. 
    F. García-Sánchez; D.M. Justo-García; J. Águila-Hernández; A. Romero-Martínez: “Modeling of Multiphase Liquid Equilibria for Quaternary Systems with the NRTL and UNIQUAC Models”. Informacion Tecnolуgica 23(1), 129-138 (2012).
    
79. 
    Haibo Zhang: “New Strategies For Global Optimization Of Chemical Engineering Applications By Differential Evolution”. Phd Thesis, Department Of Chemical And Biomolecular Engineering, National University Of Singapore, Singapore (2012).
    
80. 
    Bonilla-Petriciolet Adrian; del Rosario Moreno-Virgen Ma.; Jose Soto-Bernal Juan: “Global Gibbs Free Energy Minimization in Reactive Systems via Harmony Search”. International Journal Of Chemical Reactor Engineering 10, S3 DOI: 10.1515/1542-6580.2894 (2012)
    
81. 
    Fateen, S.-E., Bonilla-Petriciolet, A., Rangaiah, G.P.: “Evaluation of Covariance Matrix Adaptation Evolution Strategy, Shuffled Complex Evolution and Firefly Algorithms for Phase Stability, Phase Equilibrium and Chemical Equilibrium Problems”. Chem. Eng. Res. Design 90, 2051-2071 (2012).
    
82. 
    Bonilla-Petriciolet A., JJ. Soto-Bernal, I. Rosales-Candelas: “Global Gibbs free energy minimization and phase stability analysis in multicomponent systems using harmony search.” Proceedings of ESAT 2011 - 25th European Symposium on Applied Thermodynamics. Editors: Igor Gotlib, Alexey Victorov and Natalia Smirnova ISBN: 5-85263-061-6 Saint Petersburg, Russia (2011).
    

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)

Цитирана в:

83. 
    A.T. Serra: “Valorization of Traditional Portuguese Apples and Cherries. Biochemical characterization and development of functional ingredients”. Ph.D Thesis, Instituto de Tecnologia Química e Biológica, Universidade Nova de Lisboa Oeiras, Portugal (2010).
    
84. 
    Y. Bakhbakhi: “Neural network modeling of ternary solubilities of 2-naphthol in supercritical CO2: A comparative study”. Mathematical and Computer Modelling 55, 1932-1941 (2012).
    
85. 
    P.M. Moura, G.H.C. Prado, M.A.A. Meireles, C.G. Pereira: “Supercritical Fluid Extraction from guava (Psidium guajava) leaves: global yield, composition and kinetic data”. J. Supercritical Fluids 62, 116-122 (2012).
    
86. 
    I.X. Ceron, J.C. Higuita, C.A. Cardona: “Design and analysis of antioxidant compounds from Andes Berry fruits (Rubus glaucus Benth) using an enhanced-fluidity liquid extraction process with CO2 and ethanol”. J. Supercritical Fluids 62, 96-101 (2012)
    
87. 
    Patel, A.R., Heussen, P.C.M., Hazekamp, J., Dorst, E., Velikov, K.P.: “Quercetin loaded biopolymeric colloidal particles prepared by simultaneous precipitation of quercetin with hydrophobic protein in aqueous medium”. Food Chemistry 133, 423-429 (2012)
    
88. 
    Dmitrienko S. G., V. A. Kudrinskaya, and V. V. Apyari: “Methods of extraction, preconcentration, and determination of quercetin”. Journal of Analytical Chemistry 67, 299–311 (2012).
    
89. 
    Chen Hongyu: “The Synthesis and Analysis of Nano YAG Powders with High Performance”. MSc Thesis, Beijing University, China (2006).
    
90. 
    Liu Hong: “Study on the extraction of antioxidant compounds from Alpinia oxyphylla Miquel”. PhD Thesis, SCUT, China (2006).
    
91. 
    S.A.O. Santos, J.J. Villaverde, C.M. Silva, C.P. Neto, A.J.D. Silvestre: “Supercritical fluid extraction of phenolic compounds from Eucalyptus globulus Labill bark”. The Journal of Supercritical Fluids 71, 71-79 (2012).
    
92. 
    Shengshu Juan: “Effects of Extraction of Pomegranate Peel on Physiological Characteristics of Blood Cells”. MSc Thesis, Shandong Normal University, Dept of Zoology, China (2012).
    
93. 
    M.T. Fernandez-Ponce, L. Casas, C. Mantell, M. Rodriguez, E.M. Ossa: “Extraction of antioxidant compounds from different varieties of Mangifera indica leaves using Green Technologies”. The Journal of Supercritical Fluids 72, 168-175 (2012).
    
94. 
    P Alessi, A Cortesi, N De Zordi, T Gamse, I Kikic, M. Moneghini, and D. Solinas: “Supercritical Antisolvent Precipitation of Quercetin Systems: Preliminary Experiments”. Chem. Biochem. Eng. Q. 26 (4) 391–398 (2012).
    

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).

Цитирана в:

95. 
    S. Banerjee, S. De: “An analytical solution of Sherwood number in a stirred continuous cell during steady state ultrafiltration”. J. Membrane Science 389, 188-196 (2012).
    
96. 
    L. Hesse and G. Sadowski: “Modeling Liquid-Liquid Equilibria of Polyimide Solutions”, Ind. Eng. Chem. Res. 51, 539–546 (2012).
    
97. 
    E. Nagy: “Nanofiltration” in Basic Equations of the Mass Transport through a Membrane Layer. Elsevier Inc (2012).
    
98. 
    V.D. Kumar, D. Maity, M.K. Purkait: “Prediction of flux decline during membrane filtration of leather plant effluent”. International Journal of Environment and Waste Management 9, 123-140 (2012).
    
99. 
    Catherine Charcosset: “Membrane Processes in Biotechnologies and Pharmaceutics”. Elsevier UK (2012).
    

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).

Цитирана в:

100. 
     Hechinger, M., Voll, A., Marquardt, W. “On the integration of product and process design for bio-based fuels”.19th International Congress of Chemical and Process Engineering, CHISA 2010 and 7th European Congress of Chemical Engineering, ECCE-7; Prague 28 August 2010 through 1 September 2010
     

T. Fornari, 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), 8147 – 8156 (2005).

Цитирана в:

101. 
     E. Conde, A. Moure, H. Domínguez, J. C. Parajó: “Extraction of natural antioxidants from plant foods.” pp 506-594 in: Separation, extraction and concentration processes in the food, beverage and nutraceutical industries. Edited by Syed S. H. Rizvi. Woodhead Publishing Limited, Abington Hall, Granta Park, Great Abington, Cambridge CB21 6AH, UK (2010).
     

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).

Цитирана в:

102. 
     Manuel Hechinger, Kai Leonhard, and Wolfgang Marquardt: “What is Wrong with QSPR Models Based on 3D Descriptors?” J. Chem. Inf. Model. 52 (8), 1984-1993 (2012).
     
103. 
     LU Hongmei: “Fingerprint and Fingerprint-efficacy Study of Houttuynia Cordata Thunb. and Injection, a Traditional Chinese Medicine (TCM)”. PhD Thesis, Central South University, China (2006).
     

Chafer, A., T. Fornari, R.P. Stateva and A. Berna: “D-pinitol Solubility in Supercritical CO2 – Experimental Data and Correlation”, J. Chem. & Eng. Data, 51, 612-615 (2006).

Цитирана в:

104. 
     D. Zhong: “Study on the Solubilities of Chlorobenzene and Copper Sulphate in Subcritical Water and Ethanol in Supcritical Carbon Dioxide”. MSc Thesis, Zhejiang University of Technology, China (2011).
     

Brauner N., Stateva R. P., Cholakov G. S. and Shacham M.: “Structurally Targeted Quantitative Structure-Property Relationship Method for Property Prediction”. Ind. Eng. Chem. Res., 45, 8430–8437 (2006).

Цитирана в:

105. 
     Voll A., W. Marquardt: “Reaction network flux analysis: “Optimization-based evaluation of reaction pathways for biorenewables processing”. AIChE J. 58, 1788–1801 (2012).
     

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).

Цитирана в:

106. 
     Славица Костић-Николић: “Екстракционе Технике За Лековито И Ароматично Биље И Савремена Производња Прехрамбених Производа” Економика пољопривреде (Economics of Agriculture) 4, 621-636 (2011).
     

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

Цитирана в:

107. 
     S. Peper, R. Dohrn: “Sampling from fluid mixtures under high pressure: Review, case study and evaluation”. The Journal of Supercritical Fluids 66, 2-15 (2012).
     
108. 
     N. Suankaew, Y. Matsumura, I. Saramala, U.R. Ruktanonchai, A. Soottitantawat, T. Charinpanitkul: “l-menthol crystal micronized by rapid expansion of supercritical carbon dioxide”. J. Ind. and Eng. Chemistry 18, 904-908 (2012)
     
109. 
     S.A.F. Syed Muhammad, P. Tang, Hak-Kim Chan, F. Dehghani: “Potential Technique for the Production of Micronised Lactose Crystals by Supercritical Fluid Conditioning”. Presentation at ISSF 2012, 10th Internatinoal Symposium on Supercritical Fluids, May 13-16, San Fransico, Ca. USA (2012).
     
110. 
     Dohrn, R., Fonseca, J.M.S., Peper, S. “Experimental methods for phase equilibria at high pressures”. Annual Review of Chemical and Biomolecular Engineering 3, 343-367 (2012).
     
111. 
     S.A.F.S. Muhammad, P. Tang, H.-K. Chan, F. Dehghani: “The Effect of Lactose Micro-Spherical Crystals Prepared by Conditioning with Supercritical Fluid on Salbutamol Sulphate Inhalation Performance”. The Journal of Supercritical Fluids 71, 92-101 (2012).
     
112. 
     Sílvia Andreia S. F. Rebocho: “Integrated systems of reaction/separation incorporating biotransformations.” Apresentações Públicas De Projectos De Tese De Doutoramento, Departamento de Química, Faculdade de Ciências e Tecnologia, Universidade Nova de Lisboa, Caparica, Portugal 16-17 de Dezembro (2010).
     
113. 
     Zhu Linjing: “Preparation of Flavor-Containing Particles by Supercritical Technologies”. MSc Thesis, College of Chemistry and Chemical Engineering, Chemical Engineering and Biological Engineering, China (2012)
     

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).

Цитирана в:

114. 
     Dong Zhong: “Study on the Solubilities of Chlorobenzene and Copper Sulphate in Subcritical Water and Ethanol in Supcritical Carbon Dioxide”. MSc Thesis, Zhejiang University of Technology, China (2011).
     
115. 
     Noubigh A., C. Jeribi, A. Mgaidi, M. Abderrabba: “Solubility of gallic acid in liquid mixtures of (ethanol + water) from (293.15 to 318.15) K”. J. Chem. Thermodynamics 55, 75-78 (2012).
     

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 (2008).

Цитирана в:

116. 
     Maria Yuliana, Ngoc Yen Tran-Thi, Yi-Hsu Ju: “Effect of extraction methods on characteristic and composition of Indonesian cashew nut shell liquid.” Ind. Crops Prod. 35, 230-236 (2012).
     

Yankov, DS.; JPM Trusler, BY Yordanov, RP Stateva: “Influence of Lactic Acid on the Formation of Aqueous Two-phase Systems Containing Poly(ethylene glycol) and Phosphates”, J. Chem. Eng. Data 53, 1309-1315 (2008). ISSN 1520-5134.

Цитирана в:

117. 
     Wu Yumin: “Preparation of AM/DMC copolymer in two-phase systems”. MSc Thesis, Qingdao University of Science and Technology, China (2009).
     
118. 
     Tian Run, Yinai Wu: “The application of polyethylene glycol aqueous two-phase extraction.” Jiangxi Chemical Industry 2, 15-19 (2012).
     
119. 
     Christian Wohlfarth: “CRC Handbook of Phase Equilibriua and Thermodynamic Data of Aqueous Polymer Solutions” CRC Press, p. 235 (2012).
     
120. 
     J.W. 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).
     

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).

Цитирана в:

121. 
     M. Hechinger, K. Leonhard, and W. Marquardt: “What is Wrong with QSPR Models Based on 3D Descriptors?” J. Chem. Inf. Model. 52 (8), 1984-1993 (2012).
     
122. 
     Yuan Hua, Cao Chen, Zhong, Wu Yaxin: “Concept of organic homo-rank compounds and change regularity of enthalpy of formation and ionization potential of homo-rank compounds of mono-substituted alkanes”. Scientia Sinica (Chimica) - Science in China (Chemistry) 10 (2012).
     

Coelho, J.P., K. Bernotaityte, M.A. Miraldes, A.F. Mendonsa, and 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).

Цитирана в:

123. 
     Zhao Tang, Jun-su Jin, Ze-ting Zhang, and Hong-tao Liu: “New experimental data and modeling of the solubility of compounds in supercritical carbon dioxide”. Ind. Eng. Chem. Res. 51, 5515-5526 (2012).
     
124. 
     Chun-yue Jiang, Zhi-juan Sun, Qin-min Pan, and Jian-biao Pi: “Solubility of Ethylene Glycol in Supercritical Carbon Dioxide at Pressures up to 19.0 Mpa”. J. Chem. Eng. Data 57, 1794-1802 (2012).
     
125. 
     Tang Zhao: “Experimental and Theoretical Study on Phase Equilibrium of Supercritical System”. PhD Thesis, Beijing University of Chemical Technology, Chemical Engineering and Technology, China (2012).
     

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).

Цитирана в:

126. 
     Prakash, D.G., Kumar, S.T., Gandhi, N.N.: “Enhancement of solubility and mass transfer coefficient of cinnamic acid through hydrotropy”. Asian Journal of Chemistry 24 (8), 3582-3586 (2012).
     

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

Цитирана в:

127. 
     F. Gasc: “Synthèse de carbonates de dialkyle à partir d’alcools et de dioxyde de carbone supercritique”. PhD Thesis, Universite de Toulouse, France (2009).
     
128. 
     Qiu Junhong: “Correlation Model for Solid Solubility in Supercritical Fluids”. MSc Thesis, Zhejiang Industrial University, Dept. Chem. Eng., China (2010).
     
129. 
     W.-K. Lee, M.-L. Tsai, Y.-T. Shieh: “Fractionation of chitosan by supercritical carbon dioxide/acetic acid aqueous solution”. J. Supercritical Fluids 71, 86-91 (2012)
     

Yankov, D.S., J.P.M. Trusler, R.P. Stateva, G.St. Cholakov: “Influence of pH and Acid Solutes on the Phase Behaviour of Aqueous Solutions Containing Poly(ethylene glycol) and Poly(ethyleneimine)”. Biochemical Engineering Journal 48, 104–110 (2009).

Цитирана в:

130. 
     Vanessa Santos Sampaio, “Obtenção de dados de equilíbrio termodinâmico, densidade e viscosidade de sistema aquoso bifásico constituído de polietilenoglicol e poliacrilato de sódio”, MSc Thesis, Universidade Estadual do Sudoeste DA Bahia-UESB, Brasil (2011).
     

Coelho J.P., 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).

Цитирана в:

131. 
     J. Ren, Sh. Zhan, J. Zhou, M. Zhang: “A New Equilibrium Autoclave for Determining Solubility and Melting Point of Solid Solute in Supercritical Fluids: 1. Determination of Solubility of Levonorgestrel in Supercritical Carbon Dioxide”. Ind. Eng. Chem. Res. 51, 2451–2455 (2012).
     
132. 
     Zhao Tang, Jun-su Jin, Ze-ting Zhang, and Hong-tao Liu: “New experimental data and modeling of the solubility of compounds in supercritical carbon dioxide”. Ind. Eng. Chem. Res. 51, 5515-5526 (2012).
     
133. 
     Tang Zhao: “Experimental and Theoretical Study on Phase Equilibrium of Supercritical System”. PhD Thesis, Beijing University of Chemical Technology, Chemical Engineering and Technology, China (2012).
     

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)

Цитирана в:

134. 
     Deng Qian, Tong Shan-shan, Ding Li-xia, Xu Xi-ming, Yu Jiang-nan: “Research progress in the analysis methods of functional components in pine pollen and its biological activities”. Chinese Journal of Pharmaceutical Analysis, 32 (1), 173-178 (2012).
     
135. 
     Z. Huang, X.-h. Shi, W.-j. Jiang: “Theoretical models for supercritical fluid extraction”. J. Chromatography A 1250, 2-26 (2012).
     
136. 
     Chen Qun: “The Effect of Microwave Irradiation on the Structure of Selected Plant Tissues”. MPhil Thesis, The Hong Kong Polytechnique University, Dpt. of Applied Biology and Chemical Technology, Hong Kong (2011).
     
137. 
     Zabot, G.L., Moraes, M.N., Meireles, M.A.A: “Supercritical fluid extraction of bioactive compounds from botanic matrices: Experimental data, process parameters and economic evaluation”. Recent Patents on Engineering 6 (3), 182-206 (2012).
     

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

Цитирана в:

138. 
     Chun-yue Jiang, Zhi-juan Sun, Qin-min Pan, and Jian-biao Pi: “Solubility of Ethylene Glycol in Supercritical Carbon Dioxide at Pressures up to 19.0 Mpa”. J. Chem. Eng. Data 57, 1794-1802 (2012).
     
139. 
     Ortiz-Palafox J., Díaz-de-la-Fuente J.M., Figueroa-Coronel E. A., Sacramento-Rivero J. C., Rubio-Atoche C., Acereto-Escoffie P., Abelardo Navarrete, Rocha-Uribe J.A. “Extraction and characterization of oil from Moringa oleifera using SC CO2 and traditional solvents”. Presentation at ISSF 2012, 10th Internatinoal Symposium on Supercritical Fluids, May 13-16, San Fransico, Ca. USA (2012).
     
140. 
     N. Hrabovski, S. Sinadinović-Fišer, B. Nikolovski, M. Sovilj, O. Borota: “Phytosterols in pumpkin seed oil extracted by organic solvents and supercritical CO2”. European Journal of Lipid Science and Technology 114 (10), 1204-1211 (2012).
     
141. 
     F. Meyer, M. Stamenic, I. Zizovic, R. Eggers: “Fixed bed property changes during scCO2 extraction of natural materials-experiments and modeling”. The Journal of Supercritical Fluids 72, 140-149 (2012).
     

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).

Цитирана в:

142. 
     M. Hechinger, K. Leonhard, and W. Marquardt: “What is Wrong with QSPR Models Based on 3D Descriptors?” J. Chem. Inf. Model. 52 (8), 1984-1993 (2012).
     

Boyadjiev Chr., M. Doichinova, Opposite-current flows in gas-liquid boundary layers- I. Velocity distribution, Int. J. of Heat and Mass Transfer, 43, 2701-2706, 2000.

Цитирана в:

143. 
     S. Ghosh, D.K. Pratihar, B. Maiti, P.K. Das Identification of flow regimes using conductivity probe signals and neural networks for counter-current gas–liquid two-phase flow. Chemical Engineering Science, Volume 84, 24 December 2012, Pages 417-436.
     

Doichinova M., Boyadjiev Chr. Opposite-current flows in gas-liquid boundary layers- II. Mass transfer kinetics, Int. J. of Heat and Mass Transfer, , 43, 2707-2710, (2000).

Цитирана в:

144. 
     S. Ghosh, D.K. Pratihar, B. Maiti, P.K. Das Identification of flow regimes using conductivity probe signals and neural networks for counter-current gas–liquid two-phase flow. Chemical Engineering Science, Volume 84, 24 December 2012, Pages 417-436.
     

Panayotova K., M. Doichinova and Chr. Boyadjiev, On the scale effect and scale-up in the column apparatuses 1. Influence of the velocity distribution, International Journal of Heat and Mass Transfer, 52, pp. 543-547, 2009.

Цитирана в:

145. 
     Shih, T.-M., Arie, M., Ko, D., Literature Survey of Numerical Heat Transfer (2000-2009): Part II, Numerical Heat Transfer, Part A: Applications, 60 (11-12), 2011, pp. 883-1096.
     

Panayotova K., M. Doichinova and Chr. Boyadjiev, On the scale effect and scale-up in the column apparatuses 2. Scale effect modeling, International Journal of Heat and Mass Transfer, 52, 2358-2361, 2009.

Цитирана в:

146. 
     Shih, T.-M., Arie, M., Ko, D., Literature Survey of Numerical Heat Transfer (2000-2009): Part II, Numerical Heat Transfer, Part A: Applications, 60 (11-12), 2011, pp. 883-1096.
     

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 (2011), pp. 2998–3003.

Цитирана в:

147. 
     G.D. Marin, Z. Wang, G.F. Naterer, K. Gabriel, Immersed particles of a multiphase reacting flow with chemical decomposition in the stokes flow regime International Journal of Heat and Mass Transfer, Volume 55, Issues 25–26, December 2012, Pages 8139-8148.
     

P. Popova, Chr. Boyadjiev, About microalgae growth kinetics modeling, Chemical and Biochemical Engineering Quarterly, 22 (4), pp. 491-497, 2008.

Цитирана в:

148. 
     Rui Alves Cruz, Dissertation Estudo da utilizacao de microalgas e cianobacterias para a captura de dioxido de carbono e producao de materials-primas de interesse industrial, Universidade de Sao Paulo Uberlandia, Brazil, 2011.
     

Kolev, N., (2006) Packed Bed Columns: For Absorption, Desorption, Rectification and Direct Heat Transfer.(1 st edition), Elsevier Science

Цитирана от:

149. 
     Vakili, M., Gholami, Z., Gholami, F., Removal of Hydrogen sulfide from gaseous streams by a chemical method using ferric sulfate solution, World Applied Sciences Journal
     
     
     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 2011 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 0.96 Mb.
     
     Сподели с приятели: