DC Power Bibliography

Found 735 results
[ Author(Desc)] Title Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
, Cvetkovic I, Boroyevich D, Zhang W, Wang R, Mattavelli P.  2013.  Grid-interface bidirectional converter for residential DC distribution systems - Part one: High-density two-stage topology. IEEE Transactions on Power Electronics. 28
, Cvetkovic I, Boroyevich D, Zhang W, Wang R, Mattavelli P.  2013.  {Grid-interface bidirectional converter for residential DC distribution systems - Part one: High-density two-stage topology}. IEEE Transactions on Power Electronics. 28
.  2012.  {DC Distribution Market, Benefits, and Opportunities in Residential and Commercial Buildings}. Ecova. :1–51.
.  2015.  {Solar Means Business}. Solar Energy Industries Association.
.  2012.  DC Distribution Market, Benefits, and Opportunities in Residential and Commercial Buildings. Ecova. :1–51.
.  2014.  {Sunny Island System Guide Supplying Off-Grid Areas with Electricity}. SMA Solar Technology.
.  Submitted.  Power supplies efficiencies.
A
Abdin Z., Webb C.J, E. Gray MA.  2015.  {Solar hydrogen hybrid energy systems for off-grid electricity supply: A critical review}. Renewable and Sustainable Energy Reviews.
Adavbiele A.S.  2012.  {Development of off-grid solar electricity for household}. International Journal of Applied Engineering Research.
Agency IEnergy.  2012.  {Access to Electricity: World Energy Outlook (2012)}.
Agency IEnergy.  2012.  Access to Electricity: World Energy Outlook (2012).
Agrouaz Y., Bouhal T., Allouhi A., Kousksou T., Jamil A., Zeraouli Y..  2017.  {Energy and parametric analysis of solar absorption cooling systems in various Moroccan climates}. Case Studies in Thermal Engineering. 9:28–39.
Ahmadi R, Ferdowsi M.  2014.  Improving the Performance of a Line Regulating Converter in a Converter-Dominated DC Microgrid System. Smart Grid, IEEE Transactions on. 5:2553–2563.
Ahmadi R, Ferdowsi M.  2014.  {Improving the Performance of a Line Regulating Converter in a Converter-Dominated DC Microgrid System}. Smart Grid, IEEE Transactions on. 5:2553–2563.
Ahmed NA, Miyatake M, Al-Othman A.K.  2008.  {Power fluctuations suppression of stand-alone hybrid generation combining solar photovoltaic/wind turbine and fuel cell systems}. Energy Conversion and Management. 49:2711–2719.
Ahmed NA, Miyatake M, Al-Othman A.K.  2008.  Power fluctuations suppression of stand-alone hybrid generation combining solar photovoltaic/wind turbine and fuel cell systems. Energy Conversion and Management. 49:2711–2719.
Akbari M., Golkar M.A, Tafreshi S.MM.  2011.  A PSO solution for improved voltage stability of a hybrid ac-dc microgrid. 2011 IEEE PES International Conference on Innovative Smart Grid Technologies-India, ISGT India 2011. :352–357.
Akbari M., Golkar M.A, Tafreshi S.MM.  2011.  {A PSO solution for improved voltage stability of a hybrid ac-dc microgrid}. 2011 IEEE PES International Conference on Innovative Smart Grid Technologies-India, ISGT India 2011. :352–357.
Akkaya R., Kulaksiz A.A.  2004.  A microcontroller-based stand-alone photovoltaic power system for residential appliances. Applied Energy. 78:419–431.
Akkaya R., Kulaksiz A.A.  2004.  {A microcontroller-based stand-alone photovoltaic power system for residential appliances}. Applied Energy. 78:419–431.
Akpan US, Isihak SR, Udoakah YObong N.  2013.  {Electricity access in Nigeria: Viability of off-grid photovoltaic system}. IEEE AFRICON Conference.
Akter M.N., Mahmud M.A., Oo AMT.  2017.  {Comprehensive economic evaluations of a residential building with solar photovoltaic and battery energy storage systems: An Australian case study}. Energy and Buildings. 138:332–346.
Alaskan ABS.  Submitted.  Average power consumption of household appliances.
Alaskan ABS.  2008.  {Average power consumption of household appliances}.

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