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11	Welchen Nutzen haben Sensoren? Wo bleibt das 1x1 des Bodens? Graf, Klaus 15 November 2017 (has links) (PDF) No description available. Sensortechnik Biosphärenmonitoring SeBiMo Bodenbearbeitung Sensor technology biosphere monitoring SeBiMo tillage ddc:631 rvk:ZC 12104
12	Biosphärenmonitoring Bedarf und Potenziale Scholta , Claudia, Varga, Johann 14 November 2017 (has links) (PDF) No description available. Sensortechnik Biosphärenmonitoring SeBiMo Sensor technology biosphere monitoring SeBiMo ddc:631 rvk:ZC 12104
13	Ergebnisse der Workshops zu Pflanzenbaulichen Anforderungen an Sensorsysteme und Technologischen Möglichkeiten der Biosphärensensorik Herlitzius, Tomas, Schmidtke, Knut 14 November 2017 (has links) (PDF) No description available. Sensortechnik Biosphärenmonitoring SeBiMo Sensor technology biosphere monitoring SeBiMo ddc:631 rvk:ZC 12104
14	SEBIMO - Microwave-based Measurement of Soil Parameters Statz, C., Küttner, J., Plettemeier, D., Herlitzius, Thomas 14 November 2017 (has links) (PDF) No description available. Sensortechnik Biosphärenmonitoring SeBiMo Sensor technology biosphere monitoring SeBiMo ddc:631 rvk:ZC 12104
15	Bodenmonitoring im digitalisierten Pflanzenbau - die Sichtweise des Dienstleisters Schneider, Martin 14 November 2017 (has links) (PDF) No description available. Sensortechnik Biosphärenmonitoring SeBiMo Pflanzenbau Sensor technology biosphere monitoring SeBiMo crop ddc:631 rvk:ZC 12104
16	Visionen und Strategien in der Bodenbearbeitung Giesen, Gottfried 14 November 2017 (has links) (PDF) No description available. Sensortechnik Biosphärenmonitoring SeBiMo Bodenbearbeitung Sensor technology biosphere monitoring SeBiMo tillage ddc:631 rvk:ZC 12104
17	Biosphärenmonitoring Bedarf und Potenziale Scholta, Claudia, Varga, Johann January 2017 (has links) No description available. info:eu-repo/classification/ddc/631 ddc:631
18	Ergebnisse der Workshops zu Pflanzenbaulichen Anforderungen an Sensorsysteme und Technologischen Möglichkeiten der Biosphärensensorik Herlitzius, Tomas, Schmidtke, Knut 14 November 2017 (has links) No description available. info:eu-repo/classification/ddc/631 ddc:631
19	SEBIMO - Microwave-based Measurement of Soil Parameters Statz, C., Küttner, J., Plettemeier, D., Herlitzius, Thomas 14 November 2017 (has links) No description available. info:eu-repo/classification/ddc/631 ddc:631
20	Real-Time Monitoring of Powder Mass Flowrates for MPC/PID Control of a Continuous Direct Compaction Tablet Manufacturing Process Yan-Shu Huang (9175667) 30 July 2020 (has links) <div>To continue the shift from batch operations to continuous operations for a wider range of products, advances in real-time process management (RTPM) are necessary. The key requirements for effective RTPM are to have reliable real-time data of the critical process parameters (CPP) and critical quality attributes (CQA) of the materials being processed, and to have robust control strategies for the rejection of disturbances and setpoint tracking.</div><div><br></div><div>Real-time measurements are necessary for capturing process dynamics and implement feedback control approaches. The mass flow rate is an additional important CPP in continuous manufacturing compared to batch processing. The mass flow rate can be used to control the composition and content uniformity of drug products as well as an indicator of whether the process is in a state of control. This is the rationale for investigating real-time measurement of mass flow of particulate streams. Process analytical technology (PAT) tools are required to measure particulate flows of downstream unit operations, while loss-in-weight (LIW) feeders only provide initial upstream flow rates. A novel capacitance-based sensor, the ECVT sensor, has been investigated in this study and demonstrates the ability to effectively measure powder mass flow rates in the downstream equipment.</div><div><br></div><div>Robust control strategies can be utilized to respond to variations and disturbances in input material properties and process parameters, so CQAs of materials/products can be maintained and the amount of off-spec production can be reduced. The hierarchical control system (Level 0 equipment built-in control, Level 1 PAT based PID control and Level 2 optimization-based model predictive control) was applied in the pilot plant at Purdue University and it was demonstrated that the use of active process control allows more robust continuous process operation under different risk scenarios compared to a more rigid open-loop process operation within predefined design space. With the aid of mass flow sensing, the control framework becomes more robust in mitigating the effects of upstream disturbances on product qualities. For example, excursions in the mass flow from an upstream unit operation, which could force a shutdown of the tablet press and/or produce off-spec tablets, can be prevented by proper control and monitoring of the powder flow rate entering the tablet press hopper.</div><div><br></div><div>In this study, the impact of mass flow sensing on the control performance of a direct compaction line is investigated by using flowsheet modeling implemented in MATLAB/Simulink to examine the control performance under different risk scenarios and effects of data sampling (sampling time, measurement precision). Followed by the simulation work, pilot plant studies are reported in which the mass flow sensor is integrated into the tableting line at the exit of the feeding-and-blending system and system performance data is collected to verify the effects of mass flow sensing on the performance of the overall plant-wide supervisory control.</div> Process Control and Simulation Sensor Technology (Chemical aspects) process control and monitoring Pharmaceutical engineering flowsheet modeling flow sensor

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