Process for optimizing a device for regulating and damping a multiphase flow and device obtained with the process
First Claim
1. A process for optimizing characteristics of a device for regulating and for damping composition fluctuations of a multiphase flow comprising at least one liquid phase and at least one gas phase and whose gas-liquid ratio (GLR) is likely to vary within a range defined around an average value, said device being positioned between a source of effluents and a multiphase pump applying to the effluents a compression value (Δ
- P) necessary to transfer the effluents and comprising a tank for receiving said multiphase flow, said tank being provided with at least one sample tube pierced with sampling apertures, said process comprising substantially stabilizing a level of a liquid-gas interface in the tank at an average level defined by selecting the volume of the tank and the distribution of the sampling apertures so that the volume of the liquid phase corresponding to said average level is equal to the volume of liquid necessary for said multiphase pump to discharge from the tank any foreseeable volume of gas phase coming from the source of effluents and entering the tank and by keeping the volumetric ratio of the effluents fed into the pump below a determined threshold (GLRmax) so as to allow said compression (Δ
P) to be applied to the effluents;
the volume and the distribution of the apertures along the sample tube being determined through the following successive stages;
(a) according to the flow composition, the pressure prevailing in the tank, the working temperature of the tank, the maximum value of the volumetric ratio (GLRmax) and a liquid phase level (Nd) defined previously and corresponding to this maximum value (GLRmax), the value of the ratio of the respective sections of the flow provided for the gas and liquid is determined, then a distribution of the apertures along the sample tube is chosen as a function of said ratio, said distribution being achieved by zones, and(b) a maximum limiting value is fixed for said volume of gas phase likely to enter the tank, the level of liquid (Nl) corresponding to this limiting is then determined, it is checked that this level of liquid is substantially the same as that corresponding to the average value of the volumetric ratio (GLR), and at least one of the following two parameters is changed;
the volume of the tank and the distribution of the apertures along the tub, until a value of the level of liquid (Nl) corresponding to the average value of the volumetric ratio is obtained.
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Abstract
The characteristics of a device for regulating and damping the composition fluctuations of a multiphase flow comprising a tank or surge drum and a sample tube located between a source of effluents and a multiphase pump are optimized by selecting the volume of the tank and the distribution of the apertures of the sample tube so as to define an average level around which the level of the liquid-gas interface is stabilized and so that the volume of the liquid phase corresponding to this average level is at least equal to the volume of liquid necessary to discharge any foreseeable volume of gaseous phase coming from the source of effluents. In case of a large volume of gaseous phase, an unpierced tube is introduced inside the sample tube.
13 Citations
4 Claims
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1. A process for optimizing characteristics of a device for regulating and for damping composition fluctuations of a multiphase flow comprising at least one liquid phase and at least one gas phase and whose gas-liquid ratio (GLR) is likely to vary within a range defined around an average value, said device being positioned between a source of effluents and a multiphase pump applying to the effluents a compression value (Δ
- P) necessary to transfer the effluents and comprising a tank for receiving said multiphase flow, said tank being provided with at least one sample tube pierced with sampling apertures, said process comprising substantially stabilizing a level of a liquid-gas interface in the tank at an average level defined by selecting the volume of the tank and the distribution of the sampling apertures so that the volume of the liquid phase corresponding to said average level is equal to the volume of liquid necessary for said multiphase pump to discharge from the tank any foreseeable volume of gas phase coming from the source of effluents and entering the tank and by keeping the volumetric ratio of the effluents fed into the pump below a determined threshold (GLRmax) so as to allow said compression (Δ
P) to be applied to the effluents;
the volume and the distribution of the apertures along the sample tube being determined through the following successive stages;(a) according to the flow composition, the pressure prevailing in the tank, the working temperature of the tank, the maximum value of the volumetric ratio (GLRmax) and a liquid phase level (Nd) defined previously and corresponding to this maximum value (GLRmax), the value of the ratio of the respective sections of the flow provided for the gas and liquid is determined, then a distribution of the apertures along the sample tube is chosen as a function of said ratio, said distribution being achieved by zones, and (b) a maximum limiting value is fixed for said volume of gas phase likely to enter the tank, the level of liquid (Nl) corresponding to this limiting is then determined, it is checked that this level of liquid is substantially the same as that corresponding to the average value of the volumetric ratio (GLR), and at least one of the following two parameters is changed;
the volume of the tank and the distribution of the apertures along the tub, until a value of the level of liquid (Nl) corresponding to the average value of the volumetric ratio is obtained. - View Dependent Claims (2, 3, 4)
- P) necessary to transfer the effluents and comprising a tank for receiving said multiphase flow, said tank being provided with at least one sample tube pierced with sampling apertures, said process comprising substantially stabilizing a level of a liquid-gas interface in the tank at an average level defined by selecting the volume of the tank and the distribution of the sampling apertures so that the volume of the liquid phase corresponding to said average level is equal to the volume of liquid necessary for said multiphase pump to discharge from the tank any foreseeable volume of gas phase coming from the source of effluents and entering the tank and by keeping the volumetric ratio of the effluents fed into the pump below a determined threshold (GLRmax) so as to allow said compression (Δ
Specification