The Research on Commercial Modes of Smart Grid Value-Added Services Based on BSC Theory

Lin Liu; Bo Hu; Han Huang; Zhi Nan Kan

doi:10.4028/www.scientific.net/AMR.1070-1072.1371

Paper Titles

Model Research on the Whole Industry Chain Value Analysis of Strong and Smart Grid
p.1346

The Analysis of Micro-Grid Investment Income for Different Operating Modes
p.1355

Concept of URT Traction DC Microgrid and its Application Feasibility Study
p.1361

System Modeling and Simulation of Intentionally Islanded Reconfigurable Microgrid
p.1366

The Research on Commercial Modes of Smart Grid Value-Added Services Based on BSC Theory
p.1371

The Research on Relay Protection Settings On-Line Verification System Application in Smart Grid
p.1378

Multi-Objective Dispatch of a Microgrid with Battery Energy Storage System Based on Model Predictive Control
p.1384

The Development about Multifunction Merging Unit Used in Smart Substation
p.1391

The Improvement about the Reliability of Sampling Based on Process Bus in Smart Substation
p.1398

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1070-1072The Research on Commercial Modes of Smart Grid...

The Research on Commercial Modes of Smart Grid Value-Added Services Based on BSC Theory

Abstract:

Smart Grid value-added service is an important approach to utilize the potential of smart grid infrastructure. The scientific and rational commercial mode of smart grid value-added service can promote smart grid integrated projects from the pilot to comprehensive application. In this paper, the definition and content of smart grid value-added services commercial mode were studied. According to commercial model theory and evaluation methods, based on balanced scorecard theory, evaluation indicator system was established, evaluation model was proposed based on TOPSIS combined with Delphi and AHP (DAHP-TOPSIS). Through the example of PFTTH (Power fiber to the home) project, the analysis results show that the indicator system and the evaluation model proposed in this paper is useful for the selection of appropriate commercial mode and promote the rapid development of smart grid new services.

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Periodical:

Advanced Materials Research (Volumes 1070-1072)

Pages:

1371-1377

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1070-1072.1371

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Online since:

December 2014

Authors:

Lin Liu*, Bo Hu, Han Huang, Zhi Nan Kan

Keywords:

Commercial Mode, DAHP-TOPSIS, Evaluation Indicator System, PFTTH

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* - Corresponding Author

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