DC Power Bibliography

Hopey D.  2015.  {FirstEnergy to pay for solar installations at CCAC}. Pittsburgh Post-Gazette.

Hopey D.  2015.  {FirstEnergy to pay for solar installations at CCAC}. Pittsburgh Post-Gazette.

Kakigano H, Miura Y, Ise T, Momose T, Hayakawa H.  2008.  Fundamental characteristics of DC microgrid for residential houses with cogeneration system in each house. IEEE Power and Energy Society 2008 General Meeting: Conversion and Delivery of Electrical Energy in the 21st Century, PES.

Kakigano H, Miura Y, Ise T, Momose T, Hayakawa H.  2008.  Fundamental characteristics of DC microgrid for residential houses with cogeneration system in each house. IEEE Power and Energy Society 2008 General Meeting: Conversion and Delivery of Electrical Energy in the 21st Century, PES. :1–8.

Kakigano H, Miura Y, Ise T, Momose T, Hayakawa H.  2008.  {Fundamental characteristics of DC microgrid for residential houses with cogeneration system in each house}. IEEE Power and Energy Society 2008 General Meeting: Conversion and Delivery of Electrical Energy in the 21st Century, PES. :1–8.

Kakigano H, Hashimoto T, Matsumura Y, Kurotani T, Iwamoto W, Miura Y, Ise T, Momose T, Hayakawa H.  2010.  Fundamental characteristics of laboratory scale model DC microgrid to exchange electric power from distributed generators installed in residential houses. Electrical Engineering in Japan (English translation of Denki Gakkai Ronbunshi). 172:28–41.

Kakigano H, Hashimoto T, Matsumura Y, Kurotani T, Iwamoto W, Miura Y, Ise T, Momose T, Hayakawa H.  2010.  Fundamental characteristics of laboratory scale model DC microgrid to exchange electric power from distributed generators installed in residential houses. Electrical Engineering in Japan (English translation of Denki Gakkai Ronbunshi). 172:28–41.

Kakigano H, Hashimoto T, Matsumura Y, Kurotani T, Iwamoto W, Miura Y, Ise T, Momose T, Hayakawa H.  2010.  {Fundamental characteristics of laboratory scale model DC microgrid to exchange electric power from distributed generators installed in residential houses}. Electrical Engineering in Japan (English translation of Denki Gakkai Ronbunshi). 172:28–41.

Kakigano H, Hashimoto T, Matsumura Y, Kurotani T, Iwamoto W, Miura Y, Ise T, Momose T, Hayakawa H.  2010.  {Fundamental characteristics of laboratory scale model DC microgrid to exchange electric power from distributed generators installed in residential houses}. Electrical Engineering in Japan (English translation of Denki Gakkai Ronbunshi). 172:28–41.

Wernekinck E, Kawamura A, Hoft R.  1991.  A high frequency AC/DC converter with unity power factor and minimum harmonic distortion. Power Electronics, IEEE Transactions on. 6:364–370.

Wernekinck E, Kawamura A, Hoft R.  1991.  {A high frequency AC/DC converter with unity power factor and minimum harmonic distortion}. Power Electronics, IEEE Transactions on. 6:364–370.

Song S-H, Kang S-il, Hahm N-kun.  2003.  Implementation and control of grid connected AC-DC-AC power converter for variable speed wind energy conversion system. Eighteenth Annual IEEE Applied Power Electronics Conference and Exposition, 2003. APEC '03.. 1:154–158.

Song S-H, Kang S-il, Hahm N-kun.  2003.  {Implementation and control of grid connected AC-DC-AC power converter for variable speed wind energy conversion system}. Eighteenth Annual IEEE Applied Power Electronics Conference and Exposition, 2003. APEC '03.. 1:154–158.

Eiholzer T, Olsen D, Hoffmann S, Sturm B, Wellig B.  2017.  {Integration of a solar thermal system in a medium-sized brewery using pinch analysis: Methodology and case study}. Applied Thermal Engineering. 113:1558–1568.

Herrmann U., Langer H.G., van der Broeck H..  1993.  Low cost DC to AC converter for photovoltaic power conversion in residential applications. Proceedings of IEEE Power Electronics Specialist Conference - PESC '93.

Herrmann U., Langer H.G., van der Broeck H..  1993.  {Low cost DC to AC converter for photovoltaic power conversion in residential applications}. Proceedings of IEEE Power Electronics Specialist Conference - PESC '93.

Hardesty L.  2014.  Master-Planned Community Goes with Geothermal Heat Pump Closed-Loop System - Energy Manager Today. Energy Manager Today.

Hardesty L.  2015.  {Master-Planned Community Goes with Geothermal Heat Pump Closed-Loop System - Energy Manager Today}. Energy Manager Today.

Hardesty L.  2014.  {Master-Planned Community Goes with Geothermal Heat Pump Closed-Loop System - Energy Manager Today}. Energy Manager Today.

Gu Y, Xiang X, Li W, He X.  2014.  Mode-Adaptive Decentralized Control for Renewable DC Microgrid With Enhanced Reliability and Flexibility. IEEE Transactions on Power Electronics. 29:5072–5080.

Gu Y, Xiang X, Li W, He X.  2014.  {Mode-Adaptive Decentralized Control for Renewable DC Microgrid With Enhanced Reliability and Flexibility}. IEEE Transactions on Power Electronics. 29:5072–5080.

Park K-S, Ahn S-C, Hyun D-seok, Choe S-Y.  2000.  New control scheme for 3-phase PWM AC/DC converter without phase angle detection under unbalanced input voltage conditions. Applied Power Electronics Conference and Exposition, 2000. APEC 2000. Fifteenth Annual IEEE. 1:501–505vol.1.

Park K-S, Ahn S-C, Hyun D-seok, Choe S-Y.  2000.  {New control scheme for 3-phase PWM AC/DC converter without phase angle detection under unbalanced input voltage conditions}. Applied Power Electronics Conference and Exposition, 2000. APEC 2000. Fifteenth Annual IEEE. 1:501–505vol.1.

Zhu M, Li C, Huang J, Zhuo F, Xiong L, Liu B, Zhang H.  2014.  A novel method for modeling of DC micro-grid based on characteristic parameter. Applied Power Electronics Conference and Exposition (APEC), 2014 Twenty-Ninth Annual IEEE. :3465–3468.

Zhu M, Li C, Huang J, Zhuo F, Xiong L, Liu B, Zhang H.  2014.  {A novel method for modeling of DC micro-grid based on characteristic parameter}. Applied Power Electronics Conference and Exposition (APEC), 2014 Twenty-Ninth Annual IEEE. :3465–3468.