United Nations Foundations on Improving Energy Efficiency Reducing the amount of energy the world wastes is the first and best step toward fighting global.
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United Nations Foundations on Improving Energy Efficiency
•Reducing the amount of energy the world wastes is the first and best step toward fighting global warming. •Realizing the Potential of Energy Efficiency (UN report) found that, if extended to other major, energy-using countries, achieving 2.5% efficiency/year would contribute to holding carbon dioxide levels in our atmosphere to a manageable level for the rest of the century •China set a goal that would result in 4% annual improvements in energy efficiency•2014 State of the Union: "climate change is a fact" and lawmakers should be able to tell their grandchildren they built "a safer, more stable world, with new sources of energy.“•Mar 31 2014 report of IPCC in Yokohama, Japan.
•Climate change is already having sweeping effects on every continent and throughout the world’s ocean•Problem is likely to grow substantially worse unless greenhouse emissions are brought under control•Ice caps are melting, sea ice in the Arctic is collapsing, water supplies are coming under stress, heat waves and heavy rains are intensifying, coral reefs are dying, and fish and many other creatures are migrating toward the poles or in some cases going extinct•Oceans are rising at a pace that threatens coastal communities and are becoming more acidic as they absorb some of the carbon dioxide given off by cars and power plants•Worst is yet to comehttp://www.nytimes.com/2014/03/31/science/earth/panels-warning-on-climate-risk-worst-is-yet-to-come.html?hp&_r=0
CAFE: Corporate Average Fuel Economy• US Congress in 1975 intended to improve the average fuel
economy of cars and light trucks (trucks, vans and sport utility vehicles) sold in the US in the wake of the 1973 Arab Oil Embargo
• Fuel economy is defined as the average mileage traveled by an automobile per gallon of gasoline (or equivalent of any other fuel).
• CAFE is the sales-weighted average fuel economy, expressed in miles per gallon (mpg), of a manufacturer’s fleet of passenger cars or light trucks with a gross vehicle weight rating (GVWR) of 8,500 pounds or less manufactured for sale in the United States for any given model year. Current standards: depends on footprint (size) of the vehicle.
http://moreenergynow.org/energy-facts/energy-efficiency-conservation/cafe-standards/
2011-2025 CAFE standards for each model year in miles per gallon. [44]
Model
Year
Passenger Cars Light Trucks
"footprint": 41 sq ft
(3.8 m2) or smaller
(e.g. 2011 Honda Fit)
"footprint": 55 sq ft
(5.1 m2) or bigger (e.g.
Mercedes-Benz S-
Class)
"footprint": 41 sq ft
(3.8 m2) or smaller
(e.g. Nissan Juke)
"footprint": 75 sq ft
(7.0 m2) or bigger
(e.g. Ford F-150)
CAFE
EPA
Window
Sticker
CAFE
EPA
Window
Sticker
CAFE
EPA
Window
Sticker
CAFE
EPA
Window
Sticker
2012 36 27 28 21 30 23 22 17
2013 37 28 28.5 22 31 24 22.5 17
2014 38 28 29 22 32 24 23 18
2015 39 29 30 23 33 25 23.5 18
2016 41 31 31 24 34 26 24.5 19
2017 44 33 33 25 36 27 25 19
2018 45 34 34 26 37 28 25 19
2019 47 35 35 26 38 28 25 19
2020 49 36 36 27 39 29 25 19
2021 51 37 38 28 42 31 25 19
2022 53 38 40 30 44 33 26 20
2023 56 40 42 31 46 34 27 21
2024 58 41 44 33 48 36 28.5 22
2025 61 43 46 34 50 37 30 23
National Highway Traffic Safety Administration. "2017-2025 Model Year Light-Duty Vehicle GHG Emissions and CAFE Standards: Supplemental".
Energy efficiency is increasing
•Energy Intensity: E/GDP•Intensity Index: Like EI but only include efficiency improvements
http://www1.eere.energy.gov/ba/pba/intensityindicators/total_energy.html
Primary and end-use energy
• Primary energy is the energy embodied in natural resources prior to undergoing any human-made conversions or transformations. Examples of primary energy resources include coal, crude oil, sunlight, wind, running rivers, vegetation, and uranium.
• End-use energy: Always less than primary use (2nd Law of Thermodynamics). Examples: Electricity used to power appliances (obtained from turbines often)
• Savings in end-use energy correspond to much more savings in primary energy
Hybrid cars
2012 Honda Civic Hybrid http://automobiles.honda.com 2012 Toyota Prius (http://www.toyota.com)
Advantages of Hybrids• Hybrids combine clean energy of the electrical motor with the power of the
gas-powered engine which results into lower emissions and better mileage. • Thanks to the ever improving technology, hybrids perform at par with the
normal gas-powered vehicles, if not better. • Hybrids are reliable and comfortable as any traditional car and they have a
tax benefits(only till 2006). • There are purchase incentives for Hybrid vehicle owners (varies by state). • Hybrids are much cleaner cars than normal vehicles with lesser CO and other
greenhouse gas emissions. • Hybrids provide a better mileage. • The future for hybrids looks bright with rapid developments in hybrid
technology to improve engine efficiency. • Due to the Regenerative Braking technology, the batteries need not be
charged by an external source. • Special warranties are provided for the battery pack, the electric motor
other costly items. • Hybrids help reduce the dependency on fossil fuels which directly affects
fuel prices. http://www.allhybridcars.com/advantages-of-hybrid-cars.html
Disadvantages to hybrid cars
• High cost: hybrids cost anywhere from $2,000 to $5,000 more their non-hybrid versions.
• More weight due to battery packs. • Some states charge additional fees for registration. • In the event of an unfortunate accident, there is a risk of
exposure to high voltage wires. • They have a complicated system which needs to be taken
care of by experienced mechanics only. • Spare parts maybe hard to find and may be costly. • Usually, hybrids have a lower acceleration than that their
normal counterparts.
http://www.allhybridcars.com/advantages-of-hybrid-cars.html
Recommendations for reducing GHG’s
• Improve efficiency (energy saving appliances, improved CAFÉ standards, recycling, etc)
• Replace coal burning plants with natural gas (low emissions) or nuclear power plants (no emissions)
• Use more wind (need improved national grid)• Use solar thermal heating• Carbon tax on greenhouse gas emitters
Strongly recommended
• Hydropower (negative: adversely affects ecosystems)• Photo-voltaics (But price is coming down!)• Carbon capturing or sequestering: needs more
research• Bio-fuels: Not corn ethanol– does not save on
emissions• Carbon cap and trade: Complicated
Recommendations for reducing GHG’s
Less Recommended
California’s cap and trade law A.B. 32,
• On Jan. 1, 2013 it became the first state in the nation to charge industries across the economy for the greenhouse gases they emit.
• The state will set an overall ceiling on those emissions and assign allowable emission amounts for individual polluters.
• Over time, the number of allowances issued by the state will be reduced, which should force a reduction in emissions.
• Emitters can secure offset credits, either by buying leftover allowances from emitters that have met their targets or by purchasing them from projects that remove carbon dioxide or other greenhouse gases from the atmosphere
• Dozens of verifiers from different fields, will make sure benefits are real.• The European Union’s eight-year-old carbon trading market has been
tarnished by fake credits and audits that failed to meet minimum standards.
http://www.nytimes.com/2012/10/14/science/earth/in-california-a-grand-experiment-to-rein-in-climate-change.html?src=me&ref=general
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