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[7] díaz-González F, et al: A review of energy storage technologies for wind power applications, renew
sust Energy rev 16(4):2154–2171, 2012.
[8] Palzer A, henning h-M: A comprehensive model for the German electricity and heat sector in a
future energy system with a dominant contribution from renewable energy technologies–Part ii:
results, Renew Sust Energy Rev 30:1019–1034, 2014.
[9] Jacobson MZ, et al: low-cost solution to the grid reliability problem with 100% penetration of inter-
mittent wind, water, and solar for all purposes, Proc Nat Acad Sci 112(49):15060–15065, 2015.
[10] Chiang A, Wainwright K: Fundamental methods of mathematical economics, 4th ed., new york,
2005, McGraw-hill.
[11] American Fact Finder. United States metropolitan statistical areas. 2015 February 19, 2017)]. Avail-
able from: https://factfinder.census.gov/faces/tableservices/jsf/pages/productview.xhtml?src=CF.
[12] ring, W., scott sticks with renewable energy goal, Burlington, Vermont: Burlington Free Press, 2017.
[13] ISO New England. Hourly real time system demand. 2017 February 19, 2017. Available from: https://
www.iso-ne.com/isoexpress/web/reports/load-and-demand.
[14] state of Vermont, GMP solar-Williston, Certificate of Public Good, Final order docket no. 8562,
Montpelier, Vermont: Public service Board, Editor. 2016.
[15] NOAA. NSRDB solar, location 726170. 2005 (January 19, 2017). Available from: ftp://ftp.ncdc.noaa.
gov/pub/data/nsrdb-solar/solar-only/.
[16] lazard, lazard’s levelized cost of storage analysis--version 1.0. 2015.
[17] Green Mountain Power, Personal communication, d. Timmons, Editor; 2017.
[18] state of Vermont, GMP lowell wind, Certificate of Public Good, Final order docket no. 7628, Mont-
pelier, Vermont: Public service Board, Editor; 2011.
[19] Green Mountain Power, Vermont Public Service Board Rules in Favor of Green Mountain Power’s
lowell Wind Project; 2011.
[20] damon, E., seeking new life for an old north Bennington dam, in Bennington Banner. Bennington,
Vermont; 2015.
[21] state of Vermont, Water quality certification: Vermont tissue mill hydroelectric project, Montpelier,
Vermont: d.o.E.C. Agency of natural resources, Watershed Management division, Editor; 2013.
[22] UsGs. Water Watch: UsGs 01334000 Walloomsac river near north Bennington, Vermont. 2016
January 19, 2017.
[23] Burlington Electric Department. Joseph C. McNeil Generating Station. 2017 January 19, 2017)]. Avail-
able from: https://www.burlingtonelectric.com/about-us/what-we-do/joseph-c-mcneil-generat-
ing-station.
[24] Burlington Electric department. Mcneil station Joint ownership operating Committee Meeting
Notes. 2016 January 19, 2017)]. Available from: https://www.burlingtonelectric.com/sites/default/
files/2016-03-mcneil-mins.pdf.
[25] Timmons, d., et al., Energy from forest biomass: Potential economic impacts in Massachusetts, in
Massachusetts sustainable Forest Bioenergy initiative. Massachusetts division of Energy resources
and department of Conservation and recreation; 2007.
[26] BErC, Vermont Wood Fuel supply study: 2010 Update, Biomass Energy resource Center: Burlington,
Vermont; 2011.
[27] FirstLight. Northfield Mountain Pumped Storage Project: Relicensing Website 2017 January 19, 2017.
Available from: http://www.northfieldrelicensing.com/Pages/northfield.aspx.
[28] henning hM, Palzer A: A comprehensive model for the German electricity and heat sector in a future
energy system with a dominant contribution from renewable energy technologies—Part i: method-
ology, renew sust Energy rev 30:1003–1018, 2014.

