DC Power Bibliography
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Submitted. Typical power consumption.
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2017. {Technical and economical optimization for a typical solar hybrid coal-fired power plant in China}. Applied Thermal Engineering. 115:549–557.
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2017. {Thermal energy storage materials and systems for solar energy applications}. Renewable and Sustainable Energy Reviews. 68:693–706.
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2017. {Thermo-electro-chemical storage (TECS) of solar energy}. Applied Energy. 190:788–799.
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2016. {Techno-economic assessment of an off-grid PV system for developing regions to provide electricity for basic domestic needs: A 2020-2040 scenario}. Applied Energy.
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2016. {Time value of emission and technology discounting rate for off-grid electricity generation in India using intermediate pyrolysis}. Environmental Impact Assessment Review.
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2015. {Tesla and Edison Reconciled: An AC/DC Microgrid}. Engineering.com.
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2015. Tesla and Edison Reconciled: An AC/DC Microgrid > ENGINEERING.com. Engineering.com.
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2015. {Tesla and Edison Reconciled: An AC/DC Microgrid {\textgreater} ENGINEERING.com}. Engineering.com.
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2013. {To regulate or not to regulate off-grid electricity access in developing countries}. Energy Policy.
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2007. {Transmission and Distribution Networks : AC versus DC}. IEEE Power Engineering Society General Meeting. :1–5.
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2007. Transmission and Distribution Networks : AC versus DC. IEEE Power Engineering Society General Meeting. :1–5.
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2000. {Three-phase AC/DC regulated power supplies: a comparative evaluation of different topologies}. Applied Power Electronics Conference and Exposition, 2000. APEC 2000. Fifteenth Annual IEEE. 1:513–518vol.1.
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2000. Three-phase AC/DC regulated power supplies: a comparative evaluation of different topologies. Applied Power Electronics Conference and Exposition, 2000. APEC 2000. Fifteenth Annual IEEE. 1:513–518vol.1.
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1998. Three-phase rectifier using a Sepic DC-DC converter in continuous conduction mode for power factor correction. Telecommunications Energy Conference, 1998. INTELEC. Twentieth International. :491–497.
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1998. {Three-phase rectifier using a Sepic DC-DC converter in continuous conduction mode for power factor correction}. Telecommunications Energy Conference, 1998. INTELEC. Twentieth International. :491–497.
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1997. Three-phase step-down reversible AC-DC power converter. Power Electronics, IEEE Transactions on. 12:319–324.
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1997. {Three-phase step-down reversible AC-DC power converter}. Power Electronics, IEEE Transactions on. 12:319–324.
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1996. {Three-phase AC-DC unidirectional PWM multiple-switch rectifier topologies-selected properties and critical evaluation}. IEEE ISIE'96. 2:784–789.
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1996. Three-phase AC-DC unidirectional PWM multiple-switch rectifier topologies-selected properties and critical evaluation. IEEE ISIE’96. 2:784–789.
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1995. {Third-harmonic modulated power electronics interface with three-phase utility to provide a regulated DC output and to minimize line-current harmonics}. Industry Applications, IEEE Transactions on. 31:598–602.
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1995. Third-harmonic modulated power electronics interface with three-phase utility to provide a regulated DC output and to minimize line-current harmonics. Industry Applications, IEEE Transactions on. 31:598–602.
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1995. {A three-phase AC to DC converter with controllable displacement factor}. Power Electronics Specialists Conference, 1995. PESC '95 Record., 26th Annual IEEE. 2:996–1000vol.2.
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1995. A three-phase AC to DC converter with controllable displacement factor. Power Electronics Specialists Conference, 1995. PESC '95 Record., 26th Annual IEEE. 2:996–1000vol.2.
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1995. {A three-phase predictive PWM AC/DC converter with phase compensation and space vector control}. Applied Power Electronics Conference and Exposition, 1995. APEC '95. Conference Proceedings 1995., Tenth Annual. :863–869vol.2.