DC Power Bibliography

Justo JJohn, Mwasilu F, Lee J, Jung JWoo.  2013.  AC-microgrids versus DC-microgrids with distributed energy resources: A review. Renewable and Sustainable Energy Reviews. 24:387–405.

Kabeel A.E., Arunkumar T., Denkenberger D.C., Sathyamurthy R.  2017.  {Performance enhancement of solar still through efficient heat exchange mechanism – A review}. Applied Thermal Engineering. 114:815–836.

Kabeel A.E., Omara Z.M., Essa F.A., Abdullah A.S..  2016.  {Solar still with condenser – A detailed review}. Renewable and Sustainable Energy Reviews. 59:839–857.

Kabeel A.E., Hamed MH, Omara Z.M., Kandeal A.W..  2016.  {Solar air heaters: Design configurations, improvement methods and applications – A detailed review}. Renewable and Sustainable Energy Reviews.

Kabeel A.E., Arunkumar T., Denkenberger D.C., Sathyamurthy R.  2017.  {Performance enhancement of solar still through efficient heat exchange mechanism – A review}. Applied Thermal Engineering. 114:815–836.

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, 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, 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, Hiraiwa T, Fujiwara H, Miura Y, Ise T.  2012.  {An analysis method of a DC microgrid using hardware-in-the-loop simulation}. Control and Modeling for Power Electronics (COMPEL), 2012 IEEE 13th Workshop on. :1–6.

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, Miura Y, Ise T.  2010.  Low-voltage bipolar-type dc microgrid for super high quality distribution. IEEE Transactions on Power Electronics. 25:3066–3075.

Kakigano H, Nomura M, Ise T.  2010.  {Loss evaluation of dc distribution for residential houses compared with ac system}. 2010 International Power Electronics Conference - ECCE Asia -, IPEC 2010. :480–486.

Kakigano H, Miura Y, Ise T.  2009.  {Configuration and control of a DC microgrid for residential houses}. Transmission and Distribution Conference and Exhibition: Asia and Pacific, IEEE/PES. :1–4.

Kakigano H.  2009.  Configuration and control of a DC microgrid for residential houses. Transmission and Distribution Conference and Exhibition: Asia and Pacific, IEEE/PES. :1–4.

Kakigano H, Miura Y, Ise T.  2009.  Configuration and control of a DC microgrid for residential houses. Transmission and Distribution Conference and Exposition: Asia and Pacific, T and D Asia 2009.

Kakigano H, Nomura M, Ise T.  2010.  Loss evaluation of dc distribution for residential houses compared with ac system. 2010 International Power Electronics Conference - ECCE Asia -, IPEC 2010. :480–486.

Kakigano H, Miura Y, Ise T.  2010.  Low-Voltage Bipolar-Type DC Microgrid for Super High Quality Distribution. IEEE Transactions on Power Electronics. 25:3066–3075.

Kakigano H, Miura Y, Ise T.  2010.  {Low-Voltage Bipolar-Type DC Microgrid for Super High Quality Distribution}. IEEE Transactions on Power Electronics. 25:3066–3075.

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, Hiraiwa T, Fujiwara H, Miura Y, Ise T.  2012.  An analysis method of a DC microgrid using hardware-in-the-loop simulation. Control and Modeling for Power Electronics (COMPEL), 2012 IEEE 13th Workshop on. :1–6.

Kannan N, Vakeesan D.  2016.  {Solar energy for future world: - A review}. Renewable and Sustainable Energy Reviews. 62:1092–1105.

Kariatsumari K, Electronics N.  2009.  {DC Power Supply Systems Boom at Exhibition}. Nikkei Electronics.

Kariatsumari K, Electronics N.  2009.  [CEATEC] DC Power Supply Systems Boom at Exhibition. Nikkei Electronics.

Kataoka T, Mizumachi K, Miyairi S.  1979.  A Pulsewidth Controlled AC-to-DC Converter to Improve Power Factor and Waveform of AC Line Current. Industry Applications, IEEE Transactions on. IA-15:670–675.

Kataoka T, Mizumachi K, Miyairi S.  1979.  {A Pulsewidth Controlled AC-to-DC Converter to Improve Power Factor and Waveform of AC Line Current}. Industry Applications, IEEE Transactions on. IA-15:670–675.