Thinking Big on Efficiency Could Cut U.S. Energy Costs up to $16 Trillion & Create up to 1.9 Million Net Jobs by 2050
America is thinking too small when it comes to energy efficiency … according to a major new report from the American Council for an Energy-Efficient Economy (ACEEE).
The new report outlines three scenarios under which the U.S. could either continue on its current path or cut energy consumption by the year 2050 almost 60 percent, add nearly two million net jobs in 2050, and save energy consumers as much as $400 billion per year (the equivalent of $2600 per household annually).
Examples of potential large-scale energy efficiency savings identified by ACEEE include the following:
Electric Power. Our current system of generating and delivering electricity to U.S. homes and businesses is an anemic 31 percent energy efficient. That is, for every three units of coal or other fuel we use to generate the power, we manage to deliver less than one unit of electricity to our homes and businesses. What the U.S. wastes in the generation of electricity is more than Japan needs to power its entire economy. What is even more astonishing is that our current level of (in)efficiency is essentially unchanged in the half century since 1960, when President Dwight D. Eisenhower spent his last year in the White House.
Transportation. The fuel economy of conventional petroleum-fueled vehicles continues to grow while hybrid, electric, and fuel cell vehicles gain large shares, totaling nearly three-quarters of all new light-duty vehicles in 2050 in the report's middle scenario. Aviation, rail, and shipping energy use declines substantially in this scenario through a combination of technological and operational improvements. In the most aggressive scenario, there is a shift toward more compact development patterns, and greater investment in alternative modes of travel and other measures that reduce both passenger and freight vehicle miles traveled. This scenario also phases out conventional light-duty gasoline vehicles entirely, increases hybrid and fuel cell penetration for heavy-duty vehicles, and reduces aviation energy use by 70 percent.
Buildings. In residential and commercial buildings the evidence suggests potential reductions of space heating and cooling needs as the result of building shell improvements of up to 60 percent in existing buildings, and 70-90 percent in new buildings. The ACEEE scenarios also incorporate advanced heating and cooling systems (e.g., gas and ground-source air conditioners and heat pumps and condensing furnaces and boilers), decreased energy distribution losses, advanced solid-state lighting, and significantly more efficient appliances.
Industry. In the industrial sector, energy efficiency opportunities reduce 2050 energy use by up to half, coming less from equipment efficiency and more from optimization of complex systems. The ACEEE analysis focuses on process optimization in the middle scenario, but also anticipates even greater optimization of entire supply chains in the most aggressive scenario, allowing for more efficient use of feedstocks and elimination of wasted production.