DC Power Bibliography

Found 45 results
Author Title [ Type(Asc)] Year
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Journal Article
Alonso E., Gallo A., Roldán M.I., Pérez-Rábago C.A., Fuentealba E..  2017.  {Use of rotary kilns for solar thermal applications: Review of developed studies and analysis of their potential}. Solar Energy. 144:90–104.
D. Rufuss DWinfred, Iniyan S., Suganthi L., Davies P.A..  2016.  {Solar stills: A comprehensive review of designs, performance and material advances}. Renewable and Sustainable Energy Reviews. 63:464–496.
Razak A.A., Majid Z.A.A., Azmi W.H., Ruslan M.H., Choobchian S., Najafi G., Sopian K..  2016.  {Review on matrix thermal absorber designs for solar air collector}. Renewable and Sustainable Energy Reviews. 64:682–693.
Razak A.A., Majid Z.A.A., Azmi W.H., Ruslan M.H., Choobchian S., Najafi G., Sopian K..  2016.  {Review on matrix thermal absorber designs for solar air collector}. Renewable and Sustainable Energy Reviews. 64:682–693.
Jamar A., Majid Z.A.A., Azmi W.H., Norhafana M., Razak A.A..  2016.  {A review of water heating system for solar energy applications}. International Communications in Heat and Mass Transfer. 76:178–187.
Navarro AA, Ramírez L, Domínguez P, Blanco M, Polo J, Zarza E.  2016.  {Review and validation of Solar Thermal Electricity potential methodologies}. Energy Conversion and Management. 126:42–50.
Rajagopalan S, Fortenbery B.  2011.  {Realizing a cost-effective zero net energy buildings through direct current (DC) residential distribution''}. EPRI.
Rajagopalan S, Fortenbery B.  2011.  Realizing a cost-effective zero net energy buildings through direct current (DC) residential distribution’’. EPRI.
Frank SM, Rebennack S.  2015.  {Optimal design of mixed AC–DC distribution systems for commercial buildings: A Nonconvex Generalized Benders Decomposition approach}. European Journal of Operational Research. 242:710–729.
Frank SM, Rebennack S.  2015.  {Optimal design of mixed AC–DC distribution systems for commercial buildings: A Nonconvex Generalized Benders Decomposition approach}. European Journal of Operational Research. 242:710–729.
Richhariya G, Kumar A, Tekasakul P, Gupta B.  2017.  {Natural dyes for dye sensitized solar cell: A review}. Renewable and Sustainable Energy Reviews. 69:705–718.
Zou H, Du H, Ren J, Sovacool BK, Zhang Y, Mao G.  2017.  {Market dynamics, innovation, and transition in China's solar photovoltaic (PV) industry: A critical review}. Renewable and Sustainable Energy Reviews. 69:197–206.
Roggia L, Schuch L, Baggio JEduardo, Rech C, Pinheiro JRenes.  2013.  {Integrated full-bridge-forward dc-dc converter for a residential microgrid application}. IEEE Transactions on Power Electronics. 28:1728–1740.
Roggia L, Schuch L, Baggio JEduardo, Rech C, Pinheiro JRenes.  2013.  Integrated full-bridge-forward dc-dc converter for a residential microgrid application. IEEE Transactions on Power Electronics. 28:1728–1740.
Roggia L, Schuch L, Baggio JEduardo, Rech C, Pinheiro JRenes.  2013.  {Integrated full-bridge-forward dc-dc converter for a residential microgrid application}. IEEE Transactions on Power Electronics. 28:1728–1740.
Roggia L, Schuch L, Baggio JEduardo, Rech C, Pinheiro JRenes.  2013.  Integrated full-bridge-forward dc-dc converter for a residential microgrid application. IEEE Transactions on Power Electronics. 28:1728–1740.
RAJAMOHAMED S, SHWEHDI MH.  Submitted.  Imminent Smart DC Nano-Grid for Green Buildings—A Contemplative View.
Reiche K, Covarrubias A, Martinot E.  2000.  {Expanding Electricity Access to Remote Areas : Off-Grid Rural Electrification in Developing Countries}. World Power 2000.
Biczel P, Koniak M, Rasolomampionona DDauphin, Anwar S, Favier P.  2011.  Design of power plant capacity in DC hybrid system and microgrid. Energy Education Science and Technology Part A: Energy Science and Research. 27:221–232.

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