| 000 | 02962nam a22002657a 4500 | ||
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| 003 | OSt | ||
| 005 | 20220615011912.0 | ||
| 008 | 220612b ||||| |||| 00| 0 eng d | ||
| 040 |
_bEnglish. _cCvSU-CCAT Campus Library. _erda. |
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| 050 |
_aUM TJ 820 _bV35 2018 |
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| 100 |
_aBarron, Rizvirg P., author _95186 |
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| 245 |
_aVertical Axis Wind Turbine Generator Using Permanent Magnets / _cRizvirg P. Barron, and Carlo R. Valdez |
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| 260 |
_aRosario, Cavite : _bCavite State University-CCAT Campus, _c2018 |
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| 300 |
_axiii, 53 leaves : _billustrations ; _c28 cm |
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| 500 | _aProject Design (BSEE)--Cavite State University-CCAT Campus, 2018. | ||
| 504 | _aIncludes bibliographical references and appendices. | ||
| 520 | _aVALDEZ, CARLO R., BARRON, RIZVIRG P. Vertical Axis Wind Turbine Generator Using Permanent Magnets. Design Project. Department of Engineering. Cavite State University-Cavite College of Arts and Trades Campus. Rosario, Cavite. June 2018. Adviser: Engr. Orlando P. Soberano. Technical critic: Nemrod M. Zoleta The study was conducted from January 2017 to April 2018 to design. construct. and test the vertical axis wind turbine generator that uses permanent magnet . Specifically, the study aims to design and construct a vertical axis wind turbine power generator using permanent magnet; evaluate the device according to required wind speed to run the propeller and meet the required voltage to charge the battery, time it takes to charge the battery, and the time of the battery to be discharge when the street light is working while charging; and lastly, to conduct a cost analysis. Every 5 hours is the interval time conducted to monitor the charging time of the battery. The monitoring started from April 23, 2018 to April 28, 2018, from 8 am to 6 pm. For a total of 58 hours of charging time, the battery reached 12.67 V terminal voltage of electricity. The required wind speed and angular velocity is 3.6 m/sec and 373 RPM to initially move the propeller and a constant or higher value for 4 sec to reach the required speed to produce 12v minimum voltage required for the battery to charge. The street light was monitored with an LDR circuit that started to supply the 8 watts LED bulb every 6:27 pm to 5:35 am in the morning for a total running time of 11 hours and 8 minutes. The results of the statistical analysis of data revealed that the time it took to charge the battery with 5 hours monitoring time interval to charge 12.67 V with a terminal voltage of 58 hours; and for a total of 23 hours of running time of the load, the battery was discharged to 11.74 V terminal voltage. | ||
| 650 |
_aWind power _95164 |
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| 650 |
_aWind turbines _xDesign and construction _95187 |
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| 650 |
_aElectric power distribution _9776 |
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| 700 |
_aSoberano, Orlando P., adviser _94718 |
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| 700 |
_aZoleta, Nemrod M., critic _94856 |
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| 942 |
_2lcc _cT/M/D _hTJ 820 _iV38 2018 _kUM |
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| 999 |
_c1717 _d1717 |
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