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dc.contributor.authorWong, Tze Sen
dc.date.accessioned2012-06-11T00:07:09Z
dc.date.available2012-06-11T00:07:09Z
dc.date.issued1984
dc.identifier.urihttp://hdl.handle.net/10179/3452
dc.descriptionIrregular pagination: missing page 235en
dc.description.abstractThis thesis reports a study of the ethanolic fermentation of D-xylose and wood hydrolyzate to ethanol by the yeast Pachysolen tannophilus with a view to developing an effective use of renewable hemi-cellulose hydrolysis products from New Zealand forest biomass residues. Initial work briefly addressed the problem of finding a suitable yeast from natural habitats suitable for the fermentation. Soon after that work commenced literature reports suggested that preliminary conversion of pentoses by enzymatic means was a possibility. Consequently, this aspect of conversion was considered and rejected. One reason for this was that literature was drawing attention to the pentose fermenting characteristics of Pachysolen tannophilus. Laboratory scale studies demonstrated the yeast Pachysolen tannophilus to be capable of fermenting the hexose and pentose sugars present in the hydrolyzate. The yeast's specific growth rate in the hydrolyzate could be improved by neutralizing the inhibitory substances with 2 g/l of anhydrous sodium sulphite. Ethanol has an inhibitory effect on growth but can also be readily assimilated by the yeast. Fermentation studied with gyration speeds of 50, 100 and 200 r.p.m. showed that oxygen was a critical parameter affecting growth and ethanol production. Batch fermentation experiments were pursued to examine this oxygen phenomenon more closely. Cell growth, substrate uptake rate and culture pH responded strongly to the supply of oxygen. However, production of ethanol accompanied cell growth only in late "exponential" phase. Fermentation characteristics were established under continuous culture at an aeration rate of 0.37 l/l.min and values obtained were as follows; maximum specific growth rate, 0.046 h-1; biomass yield, 0.04 g/g; ethanol yield, 0.17 g/g; Ks value, 13 g/l and Ki values, 0.5 g/l. A redox potential controlled chemostat study revealed that steady-state culture poised at -50 mV exhibited a 55% increased ethanol concentration and 43% decreased xylitol concentration over the value observed without redox control. With a knowledge or D-xylose fermentation as established in these batch and chemostat experiments, it was possible to consider more detailed aspects of the fermentation which would be applicable to process development. Questions addressed included which strain of Pachysolen tannophilus should be used, what quantity of inoculum was necessary, what interactions existed between fermentation variables. Statistically designed experiments were employed to answer these questions. Empirical models so developed revealed that ethanol yield has a linear relationship with initial substrate concentration. These models have given some insight into how environmental factors affect the ethanolic fermentation by this yeast and have also indicated the optimal conditions required for an effective fermentation of wood pentoses. These important fermentation process variables were established and are expected to be useful in moving the process from laboratory scale as carried out here to a pilot plant scale of operations. The values established were temperature, 28° or lower; initial medium pH for ethanol production, 5.6 to 5.8; substrate concentration used can be up to 80 g/l of pentoses; minimum inoculum density, 5.5 g/l dry weight cells and NRRL Y-2461 was recommended as the best strain to achieve the fermentation. The pre-treatment of the prehydrolyzate by 2 g/l of anhydrous sodium sulphite was highly desirable in order to enhance growth and fermentation rates. The research has shown that Pachysolen tannophilus is capable of fermenting pentose fraction of wood hydrolyzate and that the optimal conditions for this fermentation will lead to significant utilization of wood sugar. However, in the completely mixed reactor systems used in these experiments, the ethanol yields obtained were not as attractive as those observed for hexose fermentations under similar conditions. This, it is felt, points to the greater difficulty the yeast experiences in fermenting pentoses and it also suggests the need to investigate the value of other reactor formats at seme future date.en
dc.language.isoenen
dc.publisherMassey Universityen_US
dc.rightsThe Authoren_US
dc.subjectEthanolen
dc.subjectBiomassen
dc.subjectPachysolen tannophilusen
dc.subjectYeasten
dc.subjectWaste products as fuelen
dc.titleEthanolic fermentation of D-xylose and pine wood hydrolyzate by the yeast Pachysolen tannophilus : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Biotechnology at Massey Universityen
dc.typeThesisen
thesis.degree.disciplineBiotechnologyen
thesis.degree.grantorMassey Universityen
thesis.degree.levelDoctoralen
thesis.degree.nameDoctor of Philosopy (Ph.D.)en


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