Emerging economic viability of grid defection in a northern climate using solar hybrid systems Articles uri icon

publication date

  • August 2016

start page

  • 378

end page

  • 389

volume

  • 95

International Standard Serial Number (ISSN)

  • 0301-4215

Electronic International Standard Serial Number (EISSN)

  • 1873-6777

abstract

  • High demand for photovoltaic (PV), battery, and small-scale combined heat and power (CHP) technologies are driving a virtuous cycle of technological improvements and cost reductions in off-grid electric systems that increasingly compete with the grid market. Using a case study in the Upper Peninsula of Michigan, this paper quantifies the economic viability of off-grid PV + battery + CHP adoption and evaluates potential implications for grid-based utility models. The analysis shows that already some households could save money by switching to a solar hybrid off-grid system in comparison to the effective electric rates they are currently paying. Across the region by 2020, 92% of seasonal households and ~75% of year-round households are projected to meet electricity demands with lower costs. Furthermore, ~65% of all Upper Peninsula single-family owner-occupied households will both meet grid parity and be able to afford the systems by 2020. The results imply that economic circumstances could spur a positive feedback loop whereby grid electricity prices continue to rise and increasing numbers of customers choose alternatives (sometimes referred to as a utility death spiral), particularly in areas with relatively high electric utility rates. Utility companies and policy makers must take the potential for grid defection seriously when evaluating energy supply strategies.

subjects

  • Renewable Energies

keywords

  • energy policy; electric utility; photovoltaic; distributed generation; off-grid; solar energy