Difference between revisions of "Gas Flowing Material Balance"
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| − | :<math> P_{\bar{P}}= P_{P_{wf}} + q b_{pss}</math> | + | :<math> P_{\bar{P}}= P_{P_{wf}} + q b_{pss}</math> <ref name=Mattar2005/> |
:<math> b_{pss} = \frac{1422 \times 10^3\ T_R}{kh J_D}</math> | :<math> b_{pss} = \frac{1422 \times 10^3\ T_R}{kh J_D}</math> | ||
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| + | <references> | ||
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| + | <ref name=Mattar2005>{{cite journal | ||
| + | |last1=Mattar|first1=L. | ||
| + | |last2= Anderson |first2=D | ||
| + | |title=Dynamic Material Balance (Oil or Gas-In-Place Without Shut-Ins) | ||
| + | |publisher=CIPC | ||
| + | |date=2005 | ||
| + | }}</ref> | ||
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| + | </references> | ||
Revision as of 13:04, 23 November 2017
Contents
Brief
Gas Flowing Material Balance is the advanced engineering technique to determine the Reservoirs GIIP and recovery as well as Well's EUR and JD.
Gas Flowing Material Balance is applied on the Well level given readily available well flowing data: production rate and tubing head pressure.
Math & Physics
- ↑ Mattar, L.; Anderson, D (2005). "Dynamic Material Balance (Oil or Gas-In-Place Without Shut-Ins)". CIPC.
