За научно-изследователската дейност през 2013 г. Директор:


Списък на откритите през 2013 година цитирания на трудове на учени от ИИХ-БАН



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Списък

на откритите през 2013 година цитирания на трудове на учени от ИИХ-БАН,

общо 498
Цитиран труд: Boyadjiev Chr., Pl. Mitev, V.Beshkov, Laminar boundary layers at a moving interface generated by counter-current gas-liquid stratified flow, Int.J.Multiphase Flow, 3, 61-66 (1976).

Цитирано от:



  1. Ghosh, S., Pratihar, D.K., Maiti, B., Das, P.K., 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



Цитиран труд: Beschkov V., C. Boyadjiev, Numerical investigation of gas absorption in a wavy film flow, Chem. Eng. Commun, 20, 173-182 (1983).

Цитирано от:



  1. Hamza M. Habib, Essam R. El-Zahar, Ahmed M. Ebady, Prediction of Wavy Liquid Film Profile for Thin Film on a Falling Film Absorber, Applied Mathematics, 2013, 4, 785-791.

Цитиран труд: Beschkov V., A.Marc, J.M.Engasser, A kinetic model for the hydrolysis and synthesis of maltose, isomaltose and maltotriose by glucoamylase, Biotechnology & Bioengineering, 26, 22- 26 (1984).

Цитирано от:



  1. isomaltose (CHEBI:28189); http : // www.ebi.ac.uk/chebi/searchId.do?chebiId=CHEBI:28189



Цитиран труд: Stefanova S., M. Koseva, I.Tepavicharova, V. Beschkov, L-sorbose production by cells of the strain Gluconobacter suboxydans entrapped in a polyacrylamide gel, Biotechnology Letters, 9 (7), 475-477 (1987).

Цитирано от:



  1. C. MOHAN DASS, STUDIES ON IMMUBILIZATION OF BACTERIA, PhD Thesis, CENTRE FOR BIOTECH NOLOGY, COCHIN UNIVERSITY OF SCIENCE AND TECHNOLOGY, COCHIN - 682 O22, JULY 1992, p. 15.

  2. Mandlaa, Weichao Yang,Litao Han,Zhenyu Wang,Hui Xu, Two-helper-strain co-culture system: a novel method for enhancement of 2-keto-l-gulonic acid production, Biotehnol. Lett., July, 2013,doi. 10.1007/s10529-013-1292-5.



Цитиран труд: Velizarov S., V. Beschkov, Production of free gluconic acid by cells of Gluconobacter oxydans, Biotechnology Letters, 16 (7), 715-720 (1994).

Цитирано от:



  1. Y.M.M.M. Sherif, STUDIES ON FUNGI PRODUCING ORGANIC ACIDS, Ph.D. Thesis, Zagazig University (Egypt), 2005, pp. 5, 146.

  2. Chr. Boyadjiev, Theoretical Chemical Engineering, Springer, 2010, p. 487.



Цитиран труд: Velizarov S.G., V.N. Beschkov, Oxygen Transfer and Glucose to Gluconic Acid Oxidation by Cells of Gluconobacter oxydans NBIMCC 1043, Compt. rend. Acad. Bulg. Sci., 47 (8) 53-56 (1994).

Цитирано от:



  1. Chr. Boyadjiev, Theoretical Chemical Engineering, Springer, 2010, p. 486.



Цитиран труд: Beschkov V., S. Velizarov, L. Peeva, Some Kinetic Aspects and Modelling of Biotransformation of D-Glucose to Keto- D- Gluconates, Bioprocess Engineering, 13, 301-305 (1995).

Цитирано от:



  1. Tatsuo Hoshino, 星野達雄, Masaaki Tazoe, 田副正明, Setsuko Kobayashi, 小林節子, Akiko Shimizu, 清水明子, 有機酸類の製造法, WO 2011001696 A1, 6 ян. 2011.



Цитиран труд: Beschkov V., G. Bardarska, H. Gulyas, I. Sekoulov, Degradation of triethyleneglycol-dimethyl-ether by ozonation combined with UV irradiation or hydrogen peroxide addition,Water Science & Technology, 36 (2-3) 131-138 (1997).

Цитирано от:



  1. Kim, J., Lim, H.-D., Gwon, H., Kang, K., Sodium-oxygen batteries with alkyl-carbonate and ether based electrolytes, Physical Chemistry Chemical Physics, Volume 15, Issue 10, 14 March 2013, Pages 3623-3629.

  2. 16. HỨA BẢO TRÂM, NHIỆM VỤ LUẬN VĂN CAO HỌC, ĐẠI HỌC QUỐC GIA TP.HỒ CHÍ MINH CỘNG HÒA XÃ HỘI CHỦ NGHĨA VIỆN NAMVIỆN MÔI TRƯỜNG VÀ TÀI NGUYÊN Độc lập – Tự do – Hạnh phúc, Thesis, 2012, p. 23.



Цитиран труд: Velizarov S., V. Beschkov, Biotransformation of glucose to free gluconic acid by Gluconobacter oxydans: substrate and product inhibition situations, Process Biochemistry, 33 (5) 527-534 (1998)

Цитирано от:



  1. GangulyS., Mandal S.K., Patra S.K., Selection of Suitable Physico-Chemical Conditions for Gluconic Acid Production by a Mutant Aureobasidium Pullulans SG 80, Asian Journal of Research in Chemistry, 6(1), pp.83-85, 2013



Цитиран труд: M. Kosseva, V. Beschkov, J.F. Kennedy, L.L. Lloyd, Malolactic fermentation in Chardonnay wine by immobilised Lactobacillus casei cells, Proc. Biochem., 33 (8) 793-797 (1998).

Цитирано от:



  1. José Miguel Aguilera, Food Engineering Interfaces, Springer- 2011; Food Chem 104(2):480–488.

  2. Ioannis Servetas, Carmen Berbegal, Nathalia Camacho, Argyro Bekatorou, Sergi Ferrer, Poonam Nigam, Chryssoula Drouza, Athanasios A. Koutinas, Saccharomyces cerevisiae and Oenococcus oeni immobilized in different layers of a cellulose/starch gel composite for simultaneous alcoholic and malolactic wine fermentations, Process Biochemistry, 48, Issue 9, Pages 1279–1284, DOI: http: / dx.doi.org/doi:10.1016/j.procbio.2013.06.020

  3. Đồ ÁN LÊN MEN MATOLACTIC TRONG SảN XUấT RƯợU VANG, 2013, THESIS, http:/ / tai-lieu.com/tai-lieu/do-an-len-men-matolactic-trong-san-xuat-ruou-vang-7891/



Цитиран труд: Vassileva, A., N. Burhan, V. Beschkov, D. Spasova, S. Radoevska, V. Ivanova, A. Tonkova, Cyclodextrin Glucanotransferase Production by Free and Immobilised Cells of Bacillus circulans ATCC 21783, Process Biochemistry, vol. 38, 1585-1591 (2003).

Цитирано от:



  1. R.B.Mahto, J.C. Bose K., Production of alkaline protease from Bacillus subtilisby different entrapment techniques, Production of alkaline protease from Bacillus subtilisby different entrapment techniques, J Biochem Tech (2012) 4(1): 498-501.

  2. SITI NUR IRFAN BINTI ZULKIFLI, IMMOBILIZATION OF ESCHERICHIA COLI PRODUCING RECOMBINANT CYCLODEXTRIN GLUCANOTRANSFERASE USING HOLLOW FIBER MEMBRANE, Bachelor of Engineering Thesis, Faculty of Chemical Engineering, Universiti Teknologi Malaysia, JUNE 2013.

  3. XIAO Qiu-yan, XIA Yong-mei, Immobilized cyclodextrin glycosyltransferase in catalyzing transglycosylation, China Food Additives, 2013 (1)



Цитиран труд: V. Beschkov, S. Velizarov, S.N. Agathos, V. Lukova, Bacterial denitrification of wastewater stimulated by constant electric field, The Biochemical Engineering Journal, 17 (2), 141-145 (2004).

Цитирано от:



  1. Chen Tao, Liu Qing-yu ; Li Jin-yang ; Hu Yan-qing, Research on the Microbial Fuel Cell Stimulated by DC Electric Field, Power and Energy Engineering Conference (APPEEC), 2012 Asia-Pacific, 27-29 March, 2012.

  2. Tang, J., Guo, J., Fang, F., Guo, D., Yang, L., Nitrogen reduction stimulated by a three-dimensional electrochemical-biofilm reactor and its correlation with electric field, Chongqing Daxue Xuebao/Journal of Chongqing University 36 (5) , pp. 138-142(2013).

  3. SONG Bo, Electrolytic Stimulating Technique and its Application to Biochemical Engineering, CURRENT BIOTECHNOLOGY, 2012, (5) , X172

  4. Baocheng Huang, Huajun Feng, Meizhen Wang, Na Li, Yanqing Conga, Dongsheng Shen, How to ascertain the importance of autotrophic denitrification process in a bioelectrochemical system, Bioresource Technology,Volume 146, October 2013, Pages 525–529.

  5. SU Min, JIANG Yong, ZHANG Yao, GAO Ping, LI Daping, Coupled Bioelectrochemical System for Reducing CO2 to Simple Organic Compounds in the Presence of H2, Chin J Appl Environ Biol, 2013, 19 ( 5 ) 827-832

  6. FENG Chun-hua, XIE Dao-hai, PANG Yun-meng, HAN Tao, WEI Chao-hai, Anaerobic Biotransformation of Environmental Pollutants Stimulated by Electric Field: Electron-Transfer Mechanisms and Application Examples (in Chinese), JOURNAL OF ELECTROCHEMISTRY, vol. 19 (5), 2013, 444-453.

  7. SONG BO, HOU Yi-ling,DING Xiang, Electrical stimulation technology on Enterobacter. dissolvens dissolvens growth metabolism research, , Science&Technology of Food Industry (Chinese),, Vol.34,No.ll,2013, 111-114.



Цитиран труд: M. Torz, 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), 423-433 (2005).

Цитирано от:



  1. Zhang, P., Hozalski, R.M., LaPara, T.M., Xie, Y., Camper, A.K., Leach, L., Enrichment, isolation, and characterization of dominant bacteria that deССССЕgrade haloacetic acids in drinking water ( Conference Paper ), American Water Works Association - Water Quality Technology Conference and Exposition 2007: Fast Tracks to Water Quality, 2007, Pages 3178-3183.

  2. Xianbin Su, Liyu Deng, Ka Fai Kong, Jimmy S. H. Tsang, Enhanced degradation of haloacid by heterologous expression in related Burkholderia species Biotechnology&Bioengineering, DOI: 10.1002/bit.24917.

  3. Pluchon, C., Sérodes, J.B., Berthiaume, C., Charette, S.J., Gilbert, Y., Filion, G., Fournier-Larente, J., Rodriguez, M. , Duchaine, C. , Haloacetic acid degradation by a biofilm in a simulated drinking water distribution system, Water Science and Technology: Water Supply ; Volume 13, Issue 2, 2013, Pages 447-461.



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

Цитирано от:



  1. J. Ruiz i Franco, Modelització i estratègies de procés per a la producció de RhuA en Escherichia coli; Thesis, Universitat Autònoma de Barcelona Escola d'Enginyeria Departament d'Enginyeria Química, p. 115 http: // www.tdx.cat/handle/10803/96482.

  2. K Ravinder, Bioparametric investigations for the production of cyclodextrin glycosyl transferase by submerged fermentation, PhD Thesis, Acharya Nagarjuna University, India, 2010, p.39.

  3. S. Shahrazi, S. Saallah, M.N. Mokhtar, A.S. Baharuddin, K. F. Md. Yunos, Dynamic Mathematical Modelling Of Reaction Kinetics For Cyclodextrins Production From Different Starch Sources Using Bacillus Macerans Cyclodextrin Glucano-Transferase, American Journal of Biochemistry and Biotechnology, 9 (2): 195-205, 2013



Цитиран труд: 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), 3290-3295 (2005).

Цитирано от:



  1. K Ravinder, Bioparametric Investigations For The Production Of Cyclodextrin Glycosyl Transferase By Submerged Fermentation, PhD Thesis, Acharya Nagarjuna University, India, 2010, p.19.



Цитиран труд: Burhan N., V. Beschkov, Kinetics study of cyclodextrin production by crude cyclodextrin glucan transferase, Bulgarian Chemical Communications, 38 (2) 121-125 (2006).

Цитирано от:



  1. P. Tomasik, D. Horton, Enzymatic Conversions Of Starch, Advances in Carbohydrate Chemistry and Biochemistry, vol. 68, 2012, p.251



Цитиран труд: M. Torz, P. Wietzes, V. Beschkov, D. B. Janssen, Metabolism of mono- and dihalogenated C1 and C2 compounds by Xanthobacter autotrophicus growing on 1,2-dichloroethane, Biodegradation, 18 (2), 145-157 (2007).

Цитирано от:



  1. Wang, X.-C., Chen, D.-Z., Jin, X.-J., Chen, J.-M., Isolation, degradation characteristics of a 1, 2-dichloroethane-degrading strain, Huanjing Kexue/Environmental Science,Volume 33, Issue 10, October 2012, Pages 3620-3626.

  2. Jie Maa, Carlos W. Nossab, Zongming Xiua, William G. Rixeyc, Pedro J.J. Alvarez, Adaptive microbial population shifts in response to a continuous ethanol blend release increases biodegradation potential, Environmental Pollution, 178, July 2013, Pages 419–425; http: // dx.doi.org/10.1016/j.envpol.2013.03.057

  3. Martin Klvaňa, Structure­dynamics­function Relationships Of Haloalkane Dehalogenases, Dissertation, Masaryk University, Brno, 2009.

  4. U.S. Environmental Protection Agency: U.S.Toxicological review of Methanol (Noncancer) (CASRN 67-56-1) in support of summary information on the Integrated Risk Information System (IRIS) EPA Year 2013



Цитиран труд: K. Petrov, P.P. Petrova, V.N. Beschkov, Improved immobilization of Lactobacillus rhamnosis ATCC 7469 in polyacrylamide gel, preventing cell leakage during lactic acid fermentation, World Journal of Microbiology and Biotechnology, 23, 423-428 (2007).

Цитирано от:



  1. Ken-ichi Iwasaki, Mitsutoshi Nakajima, Shin-ichi Nakao, Galacto-oligosaccharide production from lactose by an enzymic batch reaction using β-galactosidase, Process Biochemistry DOI:10.1016/0032-9592(94)00067-0

  2. 10. F.A. Aderibigbe, A.L. Adejumo, R.U. Owolabi and A.N. Anozie, Optimization of Enzymatic Hydrolysis of Manihot esculenta Root Starch by α-Amylase and Glucoamylase Using Response Surface Methodology, Chemical and Process Engineering Research, Vol.9, 14-22, 2013.

  3. Nuttha Thongchul, Production of Lactic Acid and Polylactic Acid for Industrial Applications, in: Bioprocessing Technologies in Biorefinery for Sustainable Production of Fuels, Chemicals, and Polymers (Shang-Tian Yang, Hesham A El-Enshasy, Nuttha Thongchul, Edrs), 2013 John Wiley & Sons, Inc. DOI: 10.1002/9781118642047.ch16



Цитиран труд: Burhan N., Ts. Sapundzhiev, V. Beschkov, Mathematical modelling of cyclodextrin-glucano-transferase production by immobilised cells of Bacillus circulans ATCC 21783 at batch cultivation, The Biochemical Engineering Journal, 35 (2), 114-119 (2007).

Цитирано от:



  1. Nadja Radchenkova, Margarita Kambourova, Spasen Vassilev, Rene Alt, Svetoslav Markov, On the mathematical modelling of EPS production by a thermophilic bacterium, Proc. BIOMATH’2013, Sofia, 16-19 June, 2013, p. 79.



Цитиран труд: Mileva A., Ts. Sapundzhiev, V. Beschkov, Modelling 1,2-dichloroethane biodegradation by Klebsiella oxytoca VA 8391 immobilized on granulated activated carbon, Bioprocess & Biosystems Engineering, 31, 75-85 (2008).

Цитирано от:



  1. Wang, X.-C., Chen, D.-Z., Jin, X.-J., Chen, J.-M., Isolation, degradation characteristics of a 1, 2-dichloroethane-degrading strain, Huanjing Kexue/Environmental Science, Volume 33, Issue 10, October 2012, Pages 3620-3626.

  2. D Frascari, G Bucchi, F Doria, A Rosato, N Tavanaie,R. Salviulo, R. Ciavarelli, D. Pinelli, S. Fraraccio, G. Zanaroli, F. Fava, Development of an attached-growth process for the on-site bioremediation of an aquifer polluted by chlorinated solvents - Biodegradation, 2013. DOI 10.1007/s10532-013-9664-z

  3. Yu-chia Kuo, Application of in situ emulsified biobarrier to remediate chlorinated-solvent contaminated groundwater, PhD Thesis, Taiwan, 博碩士論文 etd-0604113-091910 詳細資訊.



Цитиран труд: P. Petrova, K. Petrov, V. Beschkov „Production of 1,3-propanediol from glycerol by newly isolated strains of Klebsiella pneumoniae”, Comptes Rendus de l'Academie Bulgare des Sciences, 62 (2), 233-242 (2009).

Цитирано от:



  1. Anne Katrin Ringel, Screening-Strategien für mikrobielle Hochleistungsstämme am Beispiel der 1,3-Propandiol-Produktion aus Rohglycerin, Dissertation, Technische Universitat Carolo-Wilhelmina, 2013, p. 175.

Цитиран труд: Ts. Parvanova-Mancheva, V. Beschkov, Microbial denitrification by immobilized bacteria Pseudomonas denitrificans stimulated by constant electric field, The Biochemical Engineering Journal, 44, 208-213 (2009)

Цитирано от:



  1. QIU Xiaofan; DU Guocheng; CHEN Jian, Performance of Nitrogen Removal by Pseudomonas sp. WSH 1001, Chin J Appl Environ Biol 20128 (5): 768-774.

  2. R. Darvishi Cheshmeh Soltani, A. Rezaee, A.R. Khataee and H. Godini, Canad.J. Chem. Engng, DOI: 10.1002/cjce.21785

  3. L. Foglar, Nitrate Removal in a Continuous-Flow Stirred Reactor, Chem. Biochem. Eng. Q. 27 (1) 7–13 (2013)

  4. Lucija Foglar, Dijana Gašparac, Continuous-flow biological denitrification with zeolite as support for bacterial growth, Desalination and Water Treatment, 2013, DOI:10.1080/19443994.2013.792162

  5. Kara Nicole Kopf Fogle, Quantification of the Denitrification Gene nosZ in a Full-Scale Wastewater Treatment Plant Using qPCR, Msci. Thesis, North Carolina State University, 2013, p. 123.

  6. Lucija Foglar, NITRATE REMOVAL IN THE CONTINUOUS-FLOW STIRRED REACTOR, Proceedings of SEM2011, Oct 26 – 28, Faculty of Chemical Engineering and Technology, Zagreb, Croatia, pp. 58-65.



Цитиран труд: M. Borisov, N. Dimitrova, V. Beschkov, Stability analysis of a bioreactor model for biodegradation of xenobiotics, Computers and Mathematics with Applications, 64, 361-373 (2012).

Цитирано от:



  1. Renе Alt, J.-L. Lamotte, Stochastic Arithmetic as a Tool to Study the Stability of Biological Models, BIOMATH’13, Sofia, June, 2013.

  2. Nadja Radchenkova, Margarita Kambourova, Spasen Vassilev, Rene Alt, Svetoslav Markov, On the mathematical modelling of EPS production by a thermophilic bacterium, Proc. BIOMATH’2013, Sofia, 16-19 June, 2013, p. 79.



Цитиран труд: Razkazova-Velkova Elena N., Martin S. Martinov, Ljutzkan A. Ljutzkanov, Nadezhda Dr. Dermendzhieva, Venko N. Beschkov, Catalytic oxidation of sulfide ions in Black Sea water, Journal of International Scientific Publications; Materials, Methods & Technologies, vol. 7, Part I, pp. 456-463 (2013).

Цитирано от:



  1. D. Dzhonova-Atanasova, R. Popov, A. Georgiev, Challenges of Marine Power in the Balkan Region, BALKAN Journal Of Electrical & Computer Engineering, 2013, Vol.1, No.2, pp.85-92.



Цитиран труд: Boyadjiev Chr., V.Beschkov, Mass Transfer in Liquid Film Flow, Publ. House of Bulg.Acad.Sci., Sofia, 1984.

Цитирано от:



  1. В. Сапига, А.Л. Кирюхин, В.В. Ажимов, Диффузия И Массоперенос В Системах Индивидуальной Смазки Подшипников Корабельных Валопроводов На Обводненном Масле (часть 2), Академия военно-морских сил им. П.С. Нахимова, УДК 629.5.035.8.

  2. Nikolay I. Kolev, Chapter 14. Condensation at cooled walls, Multiphase Flow Dynamics, Springer, 2012, p. 364.

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

Цитирано от:



  1. Tang Jiawei (2013) “Preparation of Fermented milk with blood pressure lowering effect of functional beverages” PhD Thesis, (www. fs.ntou.edu.tw/seminar/10132019-2.pdf)

  2. (http: // archive.lib.cmu.ac.th/full/T/2011/inbio21011ts_bib.pdf) PhD Thesis, Chiang Mai University, Thailand.

  3. Dos Reis D.L. (2013) “Qualidade E Inocuidade Microbiológica De Derivados Lácteos Fermentados Produzidos No Distrito Federal, Brasil” PhD Thesis Universidade de Brasilia.

  4. Dankow R., Pikul J., Teichert J., Osten-Sacken N. (2013) “Charakterystyka I Właściwości Kumysu” Nauka Przyr. Technol. vol. 7 (3), #35.

Цитиран труд: Petrov K., Urshev Z., Petrova P. (2008) “L (+) - Lactic acid production from starch by a novel amylolytic Lactococcus lactis subsp. lactis B84”, Food Microbiology, vol. 25 (4), 550-557.

Цитирано от:


  1. Бирюк Е.Н., Фурик Н.Н., Асташонок М.М. (2013) „Селекция изолятов заквасочных культур лактококков и термофильного стрептококка по ферментативной активности”, Материалы ХVІ Международной научно-практической конференции по технологии хранения и переработки сельскохозяйственной продукции, РУП «Институт мясо-молочной промышленности» г. Минск, Республика Беларусь

  2. Reginensi S. M., González M. J., Bermúdez J. (2013) “Phenotypic and genotypic characterization of lactic acid bacteria isolated from cow, ewe and goat dairy artisanal farmhouses.” Braz. J. Microbiol., vol. 44 (2), 427-430.

  3. Bekkali N., Amraoui A. E., Hammoumi A., Poinsot V., Belkhou R. (2013) “Use of Lactococci isolated from Moroccan traditional dairy product: Development of a new starter culture” Afr. J. Biotechnol., vol. 12 (38), 5662-5669.

  4. Kostadinova-Georgieva L., Bosakova-Ardenska A., Dobrev I. (2013) “Store Data from Experiments with Microorganisms Used in Food Industry” International Journal of Intelligent Systems and Applications in Engineering, vol. 1 (3), 40-43.



Цитиран труд: Petrov K., Petrova P. (2009) “High production of 2,3-butanediol from glycerol by Klebsiella pneumoniae G31”, Applied Microbiology and Biotechnology, vol. 84 (4) 659–665.

Цитирано от:



  1. Shang-Tian Yang, Hesham El-Ensashy, Nuttha Thongchul (2013) “Bioprocessing Technologies in Biorefinery for Sustainable Production of Fuels, Chemicals, and Polymers” (ISBN 9781118641941) Wiley 2013

  2. Shin S.-H., Um Y., Beak J.H., Kim S., Lee S., Oh M.-K., Kim Y.-R., Lee J., Kap-Seok Yanga K.-S. (2013) “Complete Genome Sequence of Raoultella ornithinolytica Strain B6, a 2,3-Butanediol-Producing Bacterium Isolated from Oil-Contaminated Soil” Genome Announcement, vol.1 (3), e00395-13.

  3. Ilieva B., Naydenova G., Yankova S., Beschkov V. (2013) “Biotransformation of glycerol by Pseudomonas Denitrificans 1625 and Klebsiella Oxytoca VA 8391” Journal of International Scientific Publications: Ecology and Safety vol. 7 (1), 73-82.

  4. Yang T.-W., Rao Z.-M., Zhang X., Xu M.-J., Xu Z.-H., Yang S.-T. (2013) “Fermentation of biodiesel-derived glycerol by Bacillus amyloliquefaciens: effects of co-substrates on 2,3-butanediol production” Applied Microbiology and Biotechnology, vol. 97 (17), 7651-7658.

  5. Li C., Lesnik K.L., Liu H. (2013) “Microbial Conversion of Waste Glycerol from Biodiesel Production into Value-Added Products” Energies, vol. 6 (9), 4739-4768.

  6. Yang T., Rao Z., Zhang X., Xu M. Xu Z. (2013) “Effects of pH and oxygen supply on production of 2,3-butanediol from biodiesel-derived glycerol by Bacillus amyloliquefaciens” Chinese Journal of Biotechnology, vol. 29 (12), 1860-1864.

  7. Wong C-L., Yen H-W., Lin C-L., Chang J-S. (2014) “Effects of pH and fermentation strategies on 2,3-butanediol production with an isolated Klebsiella sp. Zmd30 strain” Bioresource Technology, vol. 152, 169-176.

  8. Yen H.-W., Li F.-T., Wong C.-L., Chang J.-S. (2013) “The pH effects on the distribution of 1,3-propanediol and 2,3-butanediol produced simultaneously by using an isolated indigenous Klebsiella sp. Ana-WS5” Bioprocess and Biosystems Engineering, DOI 10.1007/s00449-013-1008-1.



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