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1-qism
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- Cyber Exploration Laboratory
- Prelab
- Postlab
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Parabolic trough collector. A set of parabolic mirrors can be used to concentrate the sun’s rays to heat a fluid flowing in a pipe positioned at the mirrors’ focal points (Camacho, 2012). The heated fluid, such as oil,
for example, is transported to a pressurized tank to be used to create steam to generate electricity or power an industrial process. Since the solar energy varies with time of day, time of year, cloudiness, humidity, etc., a control system has to be developed in order to maintain the fluid temperature constant. The temper- ature is mainly controlled by varying the amount of fluid flow through the pipes, but possibly also with a solar tracking mechanism that tilts the mirrors at appropriate angles. Assuming fixed mirror angles, draw the func- tional block diagram of a system to maintain the fluid temperature a constant. The desired and actual fluid temperature difference is fed to a controller followed by an amplifier and signal conditioning circuit that varies the speed of a fluid circulating pump. Label the blocks and links of your diagram, indicating all the inputs to the system, including external disturbances such as solar variations, cloud- iness, humidity, etc. Cyber Exploration LaboratoryExperiment 1.1Objective To verify the behavior of closed-loop systems as described in the Chapter 1 Case Study. Minimum Required Software Packages LabVIEW and the LabVIEW Control Design and Simulation Module. Note: While no knowledge of LabVIEW is required for this experiment, see Appendix D to learn more about LabVIEW, which will be pursued in more detail in later chapters. PrelabFrom the discussion in the Case Study, describe the effect of the gain of a closed-loop system upon transient response. From the discussion in the Case Study about steady-state error, sketch a graph of a step input superimposed with a step response output and show the steady-state error. Assume any transient response. Repeat for a ramp input and ramp output response. Describe the effect of gain upon the steady-state error. LabLaunch LabVIEW and open Find Examples . . . under the Help tab. In the NI Example Finder window, open CDEx Effect of Controller Type.vi, found by navigating to it thourgh Toolkits and Modules/Control and Simulation/Control Design/Time Analysis/CDEx Effect of Controller Type vi. On the tool bar click the circulating arrows located next to the solid arrow on the left. The program is now running. Move the slider Controller Gain and note the effect of high and low gains. Change the controller by clicking the arrows for Controller Type and repeat Step 4. PostlabCorrelate the responses found in the experiment with those described in your Prelab. Explore other examples provided in the LabVIEW example folders. |
