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The results indicate that a CCS process with 90% CO2 capture efficiency based on [bmim]+[Ac]− reduces life cycle greenhouse gas (GHG) emissions by only 50%.
Greenhouse gas abatement from such CO2-HRP/digestion systems would stem mainly from energy conservation and the offset of fossil fuel electricity with biogas-derived electricity.
Notwithstanding these uncertainties, the data suggested that imported electrical power and biosolids treatment/ disposal operations are the largest potential sources of greenhouse gas.
The greenhouse with CO2 supplied from bottles turns out to be superior to tthe greenhouse with CO2 supplied by burning gas.
In absolute terms, when the soil carbon dioxide is included (even though soil carbon dioxide in this instance is not counted as a greenhouse gas in national and international greenhouse gas inventories), our measurements indicate that carbon dioxide and greenhouse gas emissions from farms that produce maize using stubble incorporation are 56% lower than emissions from farms that burn their stubble.
The results indicated that the greenhouse gas emission, especially for the CO 2 and CH 4 , showed a distinctly spatial variation.
Our study shows a substantial reduction of the greenhouse gas emissions from power production by 80% to 75 g·(kW·h) −1 .
Open accessJournal ArticleDOI
Donald J. Wuebbles, Katharine Hayhoe 
763 Citations
On a per molecule basis, it is much more effective a greenhouse gas than additional CO2.
This may convert this wetland from what we assume is currently a passive C storage area to an active source of greenhouse gases.
It has a global warming potential that is less than that of the photochemically active VOCs and is not classed as a greenhouse gas.

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How do electric vehicles contribute to reducing carbon emissions compared to traditional gasoline-powered vehicles?
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How much co2 is absorbed by trees each year?
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What are the chemical reactions involved in the electrochemical process of making tin powder?
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What causes piping plover habitat degredation?
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Piping plover habitat degradation can be attributed to various factors outlined in the research papers. Human interventions like beach stabilization, artificial dune construction, and damming reduce natural disturbances, limiting habitat availability for plovers. Additionally, anthropogenic modifications such as damming lead to reduced sandbar deposition, decreasing suitable breeding habitat for sandbar-breeding birds like the piping plover. Furthermore, habitat loss due to vegetation encroachment, erosion, and lack of natural disturbances like storms or floods also contribute to habitat degradation for piping plovers. The decline in open shoreline habitat, necessary for nesting, further exacerbates the degradation of piping plover habitat. Overall, a combination of human activities and natural processes like reduced sandbar deposition and vegetation encroachment leads to the degradation of piping plover habitat.
What are the advantages and disadvantages of using electrochemical methods for tin powder making compared to traditional methods?
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Electrochemical methods for tin powder production offer advantages such as high purity, controlled particle size distribution, and the ability to obtain unique structures like pyramid chains and dendrites. These methods also enable the reduction of tin ions from ionic liquids, leading to the formation of encapsulated tin powder particles with specific shapes. However, traditional methods like electrodeposition may have drawbacks such as higher energy consumption and lower current efficiency compared to electrochemical methods. Additionally, traditional methods might not provide the same level of control over particle morphology and distribution as electrochemical techniques, potentially resulting in lower purity and less uniform products.
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Do consumers know the environmental impact of food ?
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How are block copolymers used in nano composite electrolytes?
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