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If we assume that we are loosing 0.665%/600miles of Natural Gas it Resutlts in an emission of 114.459 Grams of CH4 and a loss of 5541Btus of Natual Gas for each 1mmBtu transported thought the pipeline. | If we assume that we are loosing 0.665%/600miles of Natural Gas it Resutlts in an emission of 114.459 Grams of CH4 and a loss of 5541Btus of Natual Gas for each 1mmBtu transported thought the pipeline. | ||
However if we assume that the emission of CH4 is right in GREET1_2011 we have to update our percentage lost to 0.72058%/600miles. This will result in a loss of 124.025 Grams of CH4 and 6013 Btus of Natural Gas. | However if we assume that the emission of CH4 is right in GREET1_2011 we have to update our percentage lost to 0.72058%/600miles. This will result in a loss of 124.025 Grams of CH4 and 6013 Btus of Natural Gas. | ||
In the current version of GREET we will assume that the percentage is right and therefore get 114.459 Grams of CH4 and 5541Btus of Natural Gas lost per mmBtu transported. | |||
Revision as of 16:10, February 24, 2012
NG Transmission and Distribution
This process is representing a single pipeline of 500 statute miles in GREET1_2011. The fuels used by the pipeline to power to compressors are : - Electricity - Natural Gas
The fuel usage is calculated using the regular Pipeline Mode calculations.
Losses
This process assumes some losses, as for most of the transportation processes, the losses does not have an impact on the process fuels usage. So we can imagine that as being lost at once before entering the pipeline instead of being integrated over the length of the pipeline. However the data collected presented in Burnham and al. 2011 is given per 600miles. The losses considered over the whole distance of the same kind of pipeline is CH4 leakage is a function of pipeline transmission distance. Here, 0.387 vol% CH4 leakage is assumed in NG Transmission and Storage and 0.278 vol% leakage in distribution for a distance of 600miles.
In GREET now we can define losses per an amount of distance :
![{\displaystyle {\frac {(0.387+0.278)}{600}}={\frac {0.665}{600}}\left[{\frac {\%}{miles}}\right]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/3ced911d2a6718c07b5a620c778ffd9a26a3477c)
As we are working in SI units in GREET, we need to convert that in %/meter which gives us : represented as 6.88686404E-09 in ratio/meter in the GREET database
![{\displaystyle {\frac {0.665}{600}}\left[{\frac {\%}{miles}}\right]=>6.88686404\cdot 10^{-7}\left[{\frac {\%}{meter}}\right]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/fca03fe60279dc2e1d864f60bd87712a87dda888)
What is ambiguous is this report and GREET1_2011 is what this percentage really is. We can assume that NG after processing contains approximately 92% of CH4, so are we loosing 0.665%/600miles of Natural Gas or CH4 in the natural gas. If we assume that we are loosing 0.665%/600miles of Natural Gas it Resutlts in an emission of 114.459 Grams of CH4 and a loss of 5541Btus of Natual Gas for each 1mmBtu transported thought the pipeline. However if we assume that the emission of CH4 is right in GREET1_2011 we have to update our percentage lost to 0.72058%/600miles. This will result in a loss of 124.025 Grams of CH4 and 6013 Btus of Natural Gas.
In the current version of GREET we will assume that the percentage is right and therefore get 114.459 Grams of CH4 and 5541Btus of Natural Gas lost per mmBtu transported.