Method for measuring water retention rate of extra high water-containing oil based on heat trace
A technology of ultra-high water content and measurement method, applied in construction and other directions, can solve the problems of complex fluid distribution and great influence on measurement accuracy, and achieve the effects of improving measurement accuracy, solving the influence of measurement accuracy, and stabilizing measurement data.
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specific Embodiment approach 2
[0062] This embodiment is a further description of Embodiment 1. The internal resistance of the heat source generator 4 is R and the heating voltage value U, and the heat Q emitted when the heat source generator is heated per unit of time is calculated. san , whose expression is as follows:
[0063]
[0064] Wherein, i is the serial number of the heating voltage, i=1,2,...,n, the expression of the heating voltage vector U of the heat source generator is as follows:
[0065] U={U 1 ,U 2 ,...,U i ,..., U n} T .
specific Embodiment approach 3
[0066] This embodiment is a further description of Embodiment 2. In step 2, the initial temperature of the water phase and the oil phase in the fluid to be measured is detected by the first temperature sensor 3, and the initial temperature value is denoted as T 0 , because the wellbore of the oil well adopts a small pipe diameter, the temperature field of the entire cross-section is regarded as a uniform distribution, and the temperature of the fluid to be measured is detected by the second temperature sensor 5 after heating, and the temperature data of the fluid after heating is recorded as a vector T 1 ,T 1 Expressed as:
[0067] T 1 ={T 11 , T 12 ,...,T 1i ,...,T 1n} T
[0068] Among them, T 1i is the fluid temperature value obtained by the temperature sensor at the i-th heating voltage.
specific Embodiment approach 4
[0069] This embodiment is a further description of Embodiment 3. In step 3, the theoretical value Q of the heat absorbed by the oil phase in the fluid to be measured in the thermal pulse marked after being heated by the heat source generator 4 per unit time is obtained. xio The theoretical value of heat absorbed by the water phase Q xiw , which is expressed as follows:
[0070]
[0071] Among them, q mw is the mass flow rate of water phase per unit time, c w is the specific heat capacity of water, ρ w is the water phase density, q vw is the volumetric flow rate of the water phase;
[0072]
[0073] Among them, q mo is the mass flow rate of oil phase per unit time, c o is the specific heat capacity of oil, ρ o is the oil phase density, q vo is the volumetric flow rate of the oil phase.
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