New Technologies for Fossil Fuels By: Carlos J. Vicente Mónica Páez Alessandro Di Nápoli José Pablo Alvarado.

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Presentation transcript:

New Technologies for Fossil Fuels By: Carlos J. Vicente Mónica Páez Alessandro Di Nápoli José Pablo Alvarado

Main Issues with Fossil Fuels Emissions High emissions of CO 2 -Due to its easy transport. -Lower inversions -Exaggerated use.

Effects of the emissions Green house effect Global warming Pollution in Big Cities - eg: Beijing

Caused the creation for new technologies New energy resources:  Solar  Wind  Hydro electrical  Thermal  Nuclear Low or none CO 2 emissions New technology for mitigating the CO 2 emissions given out by fossil fuels.

Carbon Capture Storage

What is it? The CCS enables large reductions in CO 2 emissions. Reduce, mitigate the contribution of fossil fuels. Capture carbon from large point sources such as fossil fuel power plants, and storing it in such a way that it does not enter the atmosphere. Recycle of C0 2 emissions.

Transport After capturing the CO2 it has to be transported into suitable storage sites. Pipeline is the cheapest and best way. Stored in either containers for that use or natural storage facilities (old oil and gas fields)

UK Uk is one of the largest contributors on the emission of CO 2. Good place to capture and store CO 2, has a lot of oil and gas fields which are being emptied of hydrocarbons. space for about 5.3 Gt CO 2 in depleted oilfields (i.e. 5,300,000,000 tonnes) Can gather 10 years of Co2 emmissons.

UK Saline aquifers. These are porous rocks deep below ground that are full of salty water. Could store Gt CO 2 like this (i.e. up to 716,000,000,000 tonnes) About 500 years of UK emissions.

Oceans Place to store carbon. “Dissolution' injects CO 2 by ship or pipeline into the water column at depths of 1000 m or more, and the CO 2 subsequently dissolves.” ‘Lake' deposits CO 2 directly onto the sea floor at depths greater than 3000 m, where CO 2 is denser than water and is expected to form a 'lake' that would delay dissolution of CO 2 into the environment.” “Convert the CO 2 to bicarbonates(using limestone) “ “Store the CO 2 in solid clathrate hydrates already existing on the ocean floor, or growing more solid clathrate.

How does it affect the Oceans? Half of the CO 2 in the atmosphere dissolves in the water. The pH of the water increases. May kill organisms in the ocean’s.

Limitations The technology is expected to use between 10 and 40% of the energy produced by a power station Levels of CO 2 decrease remain high, at approximately 80-90% compared to a plant without CCS It is possible for CCS to give negative emissions however CCS and biomass is not developed enough

Safe and permanent storage of CO 2 cannot be guaranteed CCS may still be economically attractive in comparison to other forms of low carbon electricity generation.

Enviromental Effects During power production, CO 2 capture, transport and storage. Mining and extraction of coal or gas Plants require proportionally greater amounts of limestone and systems equipped with SCR Air pollutants increase significantly, the use of CCS entails a reduction in air quality

Carbon Capture and Storage Association (CCSa) Promotes the use of CCS. Raise awareness of its benefits. Advertises the potential it has to mitigate climate change. Advises policy makers on the subject. Having direct contact with industries which wish to use CCS.

Will it work? Not a definite solution, yet helps reduce the quantity. It is an scheme which will help until emissions themselves are cut down. Starting point towards reducing the quantity of greenhouse gases.

Other Schemes Several new alternatives to reduce the level of CO 2 : o Cap and Trade (Quotas for Firms) o Taxing Emission. o Limit Emission (Amount of CO 2 per unit of energy) o Subsidies with CCS. o Legislations (Mandatory CCS)

Bibliography d_storage d_storage