Mitigation Strategies and Solutions: Energy Conservation Mitigation Strategies and Solutions:
Emission intensity This graph shows the projected contribution of various energy sources to world primary electricity consumption PEC. In the scenario, emission reductions are achieved using a portfolio of energy sources, as well as reductions in energy demand.
Also available in greyscale. Assessments often suggest that GHG emissions can be reduced using a portfolio of low-carbon technologies. As the cost of reducing GHG emissions in the electricity sector appears to be lower than in other sectors, such as in the transportation sector, the electricity sector may deliver the largest proportional carbon reductions under an economically efficient climate policy.
Understanding these pros and cons can help in making policy decisions on climate change mitigation and can influence the actions taken by countries, institutions and individuals.
The US average CO2 emissions for a battery-electric car is grams per mile vs grams per mile for a gasoline car. Increased use of electricity "generation for meeting the future transportation load is primarily fossil-fuel based", mostly natural gas, followed by coal,  but could also be met through nuclear, Mitigation strategies and solutions energy, hydroelectric and other sources.
A range of energy technologies may contribute to climate change mitigation. Development choices or "pathways" can lead differences in GHG emissions. Several scientific studies have shown that when people, especially those living in developed countries but more generally including all countries, wish to reduce their carbon footprint, there are four key "high-impact" actions they can take: Not having an additional child Avoiding one round-trip transatlantic flight 1.
Eating a plant-based diet 0. Replacing a typical car with a hybrid 0. More significantly, a US family who chooses to have one fewer child would provide the same level of emissions reductions as teenagers who choose to adopt comprehensive recycling for the rest of their lives.
Food and services are more significant in poor countries, while mobility and manufactured goods are more significant in rich countries.
Efficient energy use, sometimes simply called "energy efficiency", is the goal of efforts to reduce the amount of energy required to provide products and services. For example, insulating a home allows a building to use less heating and cooling energy to achieve and maintain a comfortable temperature.
Installing LED lightingfluorescent lightingor natural skylight windows reduces the amount of energy required to attain the same level of illumination compared to using traditional incandescent light bulbs. Energy efficiency has proved to be a cost-effective strategy for building economies without necessarily growing energy consumption.
For example, the state of California began implementing energy-efficiency measures in the mids, including building code and appliance standards with strict efficiency requirements.
As part of its strategy, California implemented a "loading order" for new energy resources that puts energy efficiency first, renewable electricity supplies second, and new fossil-fired power plants last. Examples of conservation without efficiency improvements would be heating a room less in winter, driving less, or working in a less brightly lit room.
As with other definitions, the boundary between efficient energy use and energy conservation can be fuzzy, but both are important in environmental and economic terms.
This is especially the case when actions are directed at the saving of fossil fuels. For an equivalent amount of heat, burning natural gas produces about 45 per cent less carbon dioxide than burning coal.
While the system efficiency of a gas furnace may be higher than the combination of natural gas power plant and electric heat, the combination of the same natural gas power plant and an electric heat pump has lower emissions per unit of heat delivered in all but the coldest climates.
This is possible because of the very efficient coefficient of performance of heat pumps. In areas like Norway, Braziland Quebec that have abundant hydroelectricity, electric heat and hot water are common.
The economics of switching the demand side from fossil fuels to electricity for heating, will depend on the price of fuels vs electricity and the relative prices of the equipment.
The EIA Annual Energy Outlook suggests that domestic gas prices will rise faster than electricity prices which will encourage electrification in the coming decades.
Since thermostatically controlled loads have inherent energy storage, electrification of heating could provide a valuable resource to integrate variable renewable resources into the grid.
Alternatives to electrification, include decarbonizing pipeline gas through power to gasbiogasor other carbon-neutral fuels.However, risk mitigation activities may differ from other project activities in that there may be some uncertainty about whether the selected risk mitigation strategies will work—that is, the activities may be contingent on whether the risk mitigation strategies are effective.
Mitigation Strategies and Solutions: Energy conservation SCI/2 Energy Conservation Energy conservation is an important topic that needs action to be taken immediately.
If federal and If federal and. ” (Mitigation Strategies and Solutions – Energy Conservation, Robert Gill III, August 20, ). If Governmental and Human efforts are put forth, in large amounts, it will bring down energy costs as well as allow humans to become healthier in various ways.
Mitigation Strategies and Solutions Final Project: Energy conservation is a process that every one in the world should be aware of not just for the rising cost of energy that is used by the consumer, but also the destruction that it can stop on the earths resources.
Mitigation Strategies and Solutions. Something is lurking beneath the waters of the world’s oceans. However, that something is far less that it has been in centuries past. It has also been found that land-based systems require large amounts of energy to pump water, oxygenate water, temperate water, and .
Nonrenewable resources such as coal, petroleum, natural gases, and nuclear power take millions of years to reform again and eventually will become to costly to harvest then humans would have to Other sources for energy.
Nonliving factors that contribute or are affected by energy consumption are sunlight, temperature, precipitation, water, and soil.