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The enzymatic hydrolysis of waste paper - a source of raw materials for production of liquid biofuels
Lepař, Petr ; Stloukal, Radek (referee) ; Gabriel, Petr (advisor)
In diploma thesis the process of enzymatic hydrolysis of waste paper as a source for the production of liquid biofuels is discused. It follows directly the homonymous diploma thesis from Ing. Brummer, and it is based on the findings, which were solved and decided in previous work. In the theoretical part there is a summarization of basic information on the enzymatic hydrolysis of waste paper and the associated influences of various factors of the rate and degree of hydrolysis. Higher attention is paid to a waste cardboard and its pretreatment methods due to the maximalization of the yield of hydrolysis. The next part summarizes options of the fermentative production of biofuels, focusing on the method of simultaneous saccharification and fermentation, where the further appropriate organism for ethanol fermentation is discussed. The last part is about the technological process from the raw material input to the separation of ethanol. In the experimental section the pre-treatment of waste paper in order to maximize the efficiency of hydrolysis was examined. The best results were achieved using a vibratory mill. In addition, various parameters for simultaneous saccharification and fermentation were optimized using enzymes from Novozymes® company and the yeast Saccharomyces cerevisiae. The conversion rate of waste paper cellulose to reducing sugars was observed by spectrophotometric method by Somogyi - Nelson and the amount of produced ethanol was quantified using HPLC / RI. As a part of this thesis some conditions (amount of enzyme, substrate, nutrients, yeasts, temperature, pH, type of buffer) were optimized to maximize the effectiveness of the overall process. All experiments were carried out on corrugated cardboard, which was chosen as the most promising material for hydrolysis that was among the waste paper pulp in diploma thesis by Ing. Brummer.
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Employment of bacterium Tepidimonas taiwanensis for production of polyhydroxyalkanoates on waste substrates
Vidláková, Michaela ; Pernicová, Iva (referee) ; Obruča, Stanislav (advisor)
This diploma thesis is focused on screening PHA production using thermophilic bacterium Tepidimonas taiwanensis and on the study of possible use of grape pomace, molasses and waste paper as a cheap carbon substrate for culturing the characterized bacteria. At first, testing of basic cultivation parameters was performed, including carbon substrate concentration, oxygen availability, ability to utilize nitrogen sources and selected disaccharides. PHA production from waste substrates was tested in three ways. In the first, pre-prepared solids-free hydrolysates from raw materials were used as the carbon source. The second and third procedures were performed by dosing waste materials directly into the mineral media, which differed only in the presence or absence of the enzyme preparation enabling release of fermentable sugars. The most intensive increase in culture and the highest production of PHA was recorded on grape hydrolyzate. The biomass concentration in this sample reached up to 4.8 g/L with a content of 59 % PHA. On the other hand, the addition of grape marc directly to the production medium did not work at all, which was probably due to the presence of a large amount of inhibitory substances from the pomace. The situation was similar with molasses and waste paper, where the bacterium Tepidimonas taiwanensis was able to grow and possibly produce PHA only to a small extent. The work also managed to characterize the effect of temperature and pH on the activity of the enzyme cocktail Viscozyme L and to determine the temperature and pH optimum PHA synthase of the bacterial strain Tepidimonas taiwanensis in the cell lysate.
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Preparation of Microbial Metabolites from Waste Materials
Zichová, Miroslava ; Márová, Ivana (referee) ; Stloukal, Radek (referee) ; Rosenberg, Michal (advisor)
In this thesis the use of waste materials for the microbial production of important metabolites is reported. The first part is focused on the use of waste paper (a lignocellulosic material) as a non-traditional source for the production of bioethanol. The second part is focused on the immobilization of cellulolytic enzymes, which are used for the hydrolysis of lignocellulosic materials. First, the waste paper (cardboard) was pre-treated using a blender and a vibratory mill. The pre-treated cardboard was used for the production of ethanol by the method of simultaneous saccharification and fermentation. This method was optimized with free cells of Saccharomyces cerevisiae. Then strains suitable for the immobilization were selected. Strains of S. cerevisiae and Pichia kudriavzevii were immobilized by encapsulation into the polyvinyl alcohol carrier and tested again for the ethanol production by simultaneous saccharification and fermentation. In the second part of the work a carrier from waste polyethylene terephthalate bottles was prepared and used for the immobilization of the cellulolytic complex. The basic characteristics were determined, such as optimal pH and optimal temperature, storage, operational and thermal stability, enzyme kinetics and the mode of action of the enzyme. Compared to two other commercial carriers this carrier showed to be suitable for the immobilization of the cellulolytic complex.
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Optimization of ethanol bioproduction from waste materials using SSF method
Filová, Dagmar ; Vránová, Dana (referee) ; Babák, Libor (advisor)
Presented diploma thesis is dealing with the problematics of fuel ethanol production. Relevant basic terminology is explained in the theoretical part, methods of lignocellulose pre-treatments and their conversion to bioethanol are introduced. Attetion is also given to microorganisms used for bioethanol production on industrial scale, as well as analytical instrumental techniques for glucose and ethanol detection. In experimental part, we are focusing on substrate composition analysis – contents of dry matter, cellulose and ash was investigated. Waste paper was chosen as substrate, as it does not find any other use beside recycling these days. Chosen production microorganism, that conversts sugars into etanol was the unknown strain of Saccharomyces cerevisiae. Primal substrate pre-treatment – removal of rigid parts was performed in several physical and physical – chemical ways. Substrate with such pre-treatment was ready for enzymatic hydrolysis, during which monomers from polymer matrix were formed. Ethanol was produced using method of simultaneous saccharification and fermentation, when enzymatic hydrolysis and fermentation take place at the same time and the same container.
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Production of liquid biofuels by using enzymatic hydrolysis of waste paper
Roštek, Martin ; Jecha, David (referee) ; Brummer, Vladimír (advisor)
This bachelor thesis focuses on the retrieval summary of current knowledge about the process of enzymatic hydrolysis with utilization of waste paper as raw material, in order to convert it into liquid biofuels. The thesis summarizes the general knowledge of the lignocellulosic a raw materials and their resources, an overview of available hydrolysis methods for materials and fermentation technologies, and also summary of methods currently used to rise enzymatic hydrolysis process effectivity. The next section provides an overview of commercial plants which use enzymatic hydrolysis of lignocellulosic materials.
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Study of growth and optimization of selected metabolites production by Zymomonas mobilis
Lukačková, Adéla ; Vránová, Dana (referee) ; Babák, Libor (advisor)
In the diploma thesis are discussed the process of enzymatic hydrolysis of waste paper as a source for the production of bioethanol by bacteria Zymomonas mobilis. In the theoretical part summarize basic information about particular methods of hydrolysis, about paper used as a raw material for enzymatic hydrolysis, about possibilities of the fermentative production of bioethanol focusing on the method of simultaneous saccharification and fermentation comparison with enzymatic hydrolysis and fermentation. Suitable microorganisms for ethanolic fermentation and simultaneous saccharification and fermentation and their advantages and disadvantages, are further discussed in this part as well. The theoretical part ends with the suggestion of the technological process for production of bioetanol. It covers all necessary steps from the input of raw material to the separation of produced ethanol. In the experimental part various parameters of hydrolysis, fermentation and simultaneous saccharification and fermentation were optimized using enzymes from Novozymes® company and the Zymomonas mobilis CCM2770 and Zymomonas mobilis LMG457 bacterium. The conversion rate of paper cellulose to gluckose and production of ethanol were observed by HPLC/RI method. Type of buffer, quantity of cells, enzyme and substrate were optimized in order to maximize the efficiency of the process. All experiments were performed on paper containing high amount of cellulose and for comparison on standard medium which contains gluckose. The highest yields was achieved with the use of Novozymes® Cellulosic ethanol enzyme Kit. The strain Zymomonas mobilis LMG457 has demonstrated as a better producer.
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Employment of bacterium Tepidimonas taiwanensis for production of polyhydroxyalkanoates on waste substrates
Vidláková, Michaela ; Pernicová, Iva (referee) ; Obruča, Stanislav (advisor)
This diploma thesis is focused on screening PHA production using thermophilic bacterium Tepidimonas taiwanensis and on the study of possible use of grape pomace, molasses and waste paper as a cheap carbon substrate for culturing the characterized bacteria. At first, testing of basic cultivation parameters was performed, including carbon substrate concentration, oxygen availability, ability to utilize nitrogen sources and selected disaccharides. PHA production from waste substrates was tested in three ways. In the first, pre-prepared solids-free hydrolysates from raw materials were used as the carbon source. The second and third procedures were performed by dosing waste materials directly into the mineral media, which differed only in the presence or absence of the enzyme preparation enabling release of fermentable sugars. The most intensive increase in culture and the highest production of PHA was recorded on grape hydrolyzate. The biomass concentration in this sample reached up to 4.8 g/L with a content of 59 % PHA. On the other hand, the addition of grape marc directly to the production medium did not work at all, which was probably due to the presence of a large amount of inhibitory substances from the pomace. The situation was similar with molasses and waste paper, where the bacterium Tepidimonas taiwanensis was able to grow and possibly produce PHA only to a small extent. The work also managed to characterize the effect of temperature and pH on the activity of the enzyme cocktail Viscozyme L and to determine the temperature and pH optimum PHA synthase of the bacterial strain Tepidimonas taiwanensis in the cell lysate.
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Optimalization of reverse waste management system
SOVOVÁ, Jana
In this thesis we discusses the problem of waste management, which means the gathering, concentration, collection, purchase, sorting, transport, storage, treatment, recovery and disposal of waste, of course. This work actually focuses on the management of waste paper. This issue was also deals with waste management the reverse logistics.
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Preparation of Microbial Metabolites from Waste Materials
Zichová, Miroslava ; Márová, Ivana (referee) ; Stloukal, Radek (referee) ; Rosenberg, Michal (advisor)
In this thesis the use of waste materials for the microbial production of important metabolites is reported. The first part is focused on the use of waste paper (a lignocellulosic material) as a non-traditional source for the production of bioethanol. The second part is focused on the immobilization of cellulolytic enzymes, which are used for the hydrolysis of lignocellulosic materials. First, the waste paper (cardboard) was pre-treated using a blender and a vibratory mill. The pre-treated cardboard was used for the production of ethanol by the method of simultaneous saccharification and fermentation. This method was optimized with free cells of Saccharomyces cerevisiae. Then strains suitable for the immobilization were selected. Strains of S. cerevisiae and Pichia kudriavzevii were immobilized by encapsulation into the polyvinyl alcohol carrier and tested again for the ethanol production by simultaneous saccharification and fermentation. In the second part of the work a carrier from waste polyethylene terephthalate bottles was prepared and used for the immobilization of the cellulolytic complex. The basic characteristics were determined, such as optimal pH and optimal temperature, storage, operational and thermal stability, enzyme kinetics and the mode of action of the enzyme. Compared to two other commercial carriers this carrier showed to be suitable for the immobilization of the cellulolytic complex.
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Optimization of ethanol bioproduction from waste materials using SSF method
Filová, Dagmar ; Vránová, Dana (referee) ; Babák, Libor (advisor)
Presented diploma thesis is dealing with the problematics of fuel ethanol production. Relevant basic terminology is explained in the theoretical part, methods of lignocellulose pre-treatments and their conversion to bioethanol are introduced. Attetion is also given to microorganisms used for bioethanol production on industrial scale, as well as analytical instrumental techniques for glucose and ethanol detection. In experimental part, we are focusing on substrate composition analysis – contents of dry matter, cellulose and ash was investigated. Waste paper was chosen as substrate, as it does not find any other use beside recycling these days. Chosen production microorganism, that conversts sugars into etanol was the unknown strain of Saccharomyces cerevisiae. Primal substrate pre-treatment – removal of rigid parts was performed in several physical and physical – chemical ways. Substrate with such pre-treatment was ready for enzymatic hydrolysis, during which monomers from polymer matrix were formed. Ethanol was produced using method of simultaneous saccharification and fermentation, when enzymatic hydrolysis and fermentation take place at the same time and the same container.
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