Coal is an important resource and is predicted to become of increasing importance in new energy production. In light of COP21 and a global push to keep carbon emissions to a minimum this is an important issue.
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| Coal has become a staple across the energy landscape (Source) |
Analysis which was presented at COP21 suggests that if all coal plants planned to be built by 2030 are built, coal emissions would increase by 400%. Even with no additional coal plant construction, predicted emissions from coal are 150% too high to keep global temperatures below 2 degrees.
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| Calculated carbon increase from analysis results (Source) |
This is a slight issue... And considering temperatures have already gone up by an average of 1 degree since pre-industrial times, the threshold of 2 degree temperature rise is becoming more and more problematic.
For many countries, providing their citizens with electricity is of far more importance than cutting carbon emissions, even for those countries may have agreed Intended Nationally Determined Contributions (to cutting carbon), or INDCs. Ultimately, this can lead to a number of issues which will impact the final result of COP21: increases in carbon emissions and displacement of renewable energy. These countries, many of which are developing, such as India and China, are still investing in renewable energy sources, but the uptake, cost and generation is too small to be effective in bringing electricity to the masses.
So how do we approach coal? I believe we need to appreciate it is a cheap, very widely recognised and used technology globally. What can be changed is the types of coal and the technology used within coal plants to mitigate the issues. Furthermore, pushing cleaner technologies, such as gas may be a more suitable, cleaner and (potentially) more efficient solution (and one which will be dominating the UK energy space for the next 20 years).
Technology:
Carbon Capture and Storage (CCS)? I feel CCS is a utopian idea which is and will continue to be only suitable in a hypothetical world. CCS has had has limited testing. It provides us with an additional carbon sink. But continues to allow our exploitative approach to carbon for energy. There are also risks to CCS. The principle is to pump the carbon back into old oil fields, but contamination and leakages could present themselves as a large issue.
Renewables? Could be a solution for developing nations. Funding must be available, however renewables do provide grassroots-scale energy production without the need for expensive infrastructure development - an especially important issue in fast growing cities.
These two latter aspects are items I will look at and investigate in my next two blogs: carbon sinks (afforestation) and renewable production (solar farms) - how can our use of the sun and trees mitigate against our exploitative use of electricity?
Edit: the second photo was added at a later date to provide some visualisation to the figures discussed above
Jees, coal is very much the bad-guy in the whole energy mix. I can't believe that if all plants are built by 2030, emissions will rise by 400% - that's a HUGE increase, one which we cannot afford if we are to remain below 2 degrees C.
ReplyDeleteI'd definitely like to learn more about CCS! How viable of a solution do you think it would be in practice?
Granted that 400% is a figure generated based on pre-COP21 agreements, and might change in the future (hopefully). Although my opinion is that CCS is not the best solution, I will certainly look at mitigation strategies and renewables in my next few posts! Stick around!
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