Summary
Previously reported flow microcalorimeter devices for enzymic reaction heat measurement, enzyme thermistors, have here been extended with systems for on-line sample treatment. Glucose analysis was performed by intermittent flow injections of 50 μl samples through such an enzyme thermistor device containing immobilized glucose oxidase and catalase. Sucroce analysis was performed by allowing diluted samples to continuously pass through an additional enzyme thermistor containing immobilized invertase. The reaction heats were recorded as temperature changes in the order of 10–50 m°C for concentrations of 0.05–0.30 M glucose or sucrose present in the original non-diluted samples.
The performance of this system was investigated by its ability to follow concentration changes obtained from a gradient mixer. The system was applied to monitoring and controlling the hydrolysis of sucrose to glucose and fructose in a plug-flow reactor with immobilized invertase. The reactor was continuously fed by a flow of scurose of up to 0.3 M (100 g/l). Glucose and remaining sucrose were monitored in the effluent of the column. By using flow rate controlled feed pumps for sucrose and diluent the influent concentration of sucrose was varied while the overall flow rate remained constant.
On-line control of the effluent concentration of lucose and sucrose was achieved by a proportional and integral regulator implemented on a microcomuter. Preset concentration of glucose in the effluent could be maintained over an extended period of time espite changes in the overall capacity of the invertase reactor. Long delay times in the sensor system and the enzyme column made it necessary to carefully tune the control parameters. Changes of set-point value and temperature disturbances were used to verify accuracy of controlling performance.
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Mandenius, C.F., Bülow, L., Danielsson, B. et al. Monitoring and control of enzymic sucrose hydrolysis using on-line biosensors. Appl Microbiol Biotechnol 21, 135–142 (1985). https://doi.org/10.1007/BF00295108
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DOI: https://doi.org/10.1007/BF00295108