Mapping out an alternative energy future for New York
if New York switched to WWS, air pollution-related deaths would decline by about 4,000 annually and the state would save about $33 billion — 3 percent of the state’s gross domestic product — in related health costs every year. That savings alone would pay for the new power infrastructure needed within about seventeen years, or about ten years if annual electricity sales are accounted for. The study also estimates that resultant emissions decreases would reduce 2050 U.S. climate change costs — such as coastal erosion and extreme weather damage — by about $3.2 billion per year.
Currently, almost all of New York’s energy comes from imported oil, coal and gas. Under the plan that Jacobson and his fellow researchers advance, 40 percent of the state’s energy would come from local wind power, 38 percent from local solar and the remainder from a combination of hydroelectric, geothermal, tidal and wave energy.
All vehicles would run on battery-electric power and/or hydrogen fuel cells. Electricity-powered air- and ground-source heat pumps, geothermal heat pumps, heat exchangers and backup electric resistance heaters would replace natural gas and oil for home heating and air-conditioning. Air- and ground-source heat pump water heaters powered by electricity and solar hot water preheaters would provide hot water for homes. High temperatures for industrial processes would be obtained with electricity and hydrogen combustion.
“We must be ambitious if we want to promote energy independence and curb global warming,” said study co-author Robert Howarth, a Cornell University professor of ecology and environmental biology. “The economics of this plan make sense,” said Anthony Ingraffea, a Cornell engineering professor and a co-author of the study. “Now it is up to the political sphere.”
To ensure grid reliability, the plan outlines several methods to match renewable energy supply with demand and to smooth out the variability of WWS resources. These include a grid management system to shift times of demand to better match with timing of power supply, and “over-sizing” peak generation capacity to minimize times when available power is less than demand.
The study’s authors are developing similar plans for other states, including California and Washington. The release notes that they took no funding from any interest group, company or government agency for this study.
— Read more in Mark Z. Jacobson et al., “Examining the feasibility of converting New York State’s all-purpose energy infrastructure to one using wind, water, and sunlight,” Energy Policy 57 (June 2013): 585-601