• Title of article

    Empirical analysis of the solar incentive policy for Tennessee solar value chain

  • Author/Authors

    Sawhney، نويسنده , , Rapinder and Thakur، نويسنده , , Kaveri and Venkatesan، نويسنده , , Bharadwaj and Ji، نويسنده , , Shuguang and Upreti، نويسنده , , Girish and Sanseverino، نويسنده , , John، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    9
  • From page
    368
  • To page
    376
  • Abstract
    The market for solar energy in the US has grown exponentially due to increased consumer demand resulting from price reduction via economies of scale, technological progress, and a variety of incentives from federal and state governments as well as utility companies. The installation of solar power in Tennessee has more than doubled each year from 2009 to 2011. In this paper, we focus on the behavior of the Tennessee Solar Value Chain (TNSVC) to study the factors that influence growth of solar industry in the state. The impact of existing incentives on the TNSVC is analyzed. The TNSVC is simulated based on inputs from on-site survey to estimate economic impact in terms of the number of jobs added and the tax revenue generated in the state. In addition, a sensitivity analysis for the impact on the TNSVC under different policies those may be adopted by the state of Tennessee in the future is conducted. This paper employs a holistic model which can predict PV installation demand, understand solar value chain capacity, and estimate the revenue generation. It should be noted that the method employed in this study is not unique to the solar energy industry in Tennessee. The data utilized in this study is a combination of public domain information and surveys of suppliers, manufacturers, distributors, and installers. This makes the model in this paper flexible enough to be applied to assess the solar value chain in other state or country.
  • Keywords
    Solar value chain , Policy , SIMULATION , Regression , Supply chain , Incentives
  • Journal title
    Applied Energy
  • Serial Year
    2014
  • Journal title
    Applied Energy
  • Record number

    1608709