Estimating Density, Formation Volume Factor, Compressibility, Methane Solubility, and Viscosity for Oilfield Brines at Temperatures From 0 to 275 ° C, Pressures to 200 MPa, and Salinities to 5.7 mole/kg

Spivey, J.P.; McCain, William D.; North, Rob

doi:10.2118/04-07-05

Cited by 63 publications

(48 citation statements)

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“…This macro has been developed at SINTEF Petroleum AS by Lindeberg (2013). Calculations of the brine density are based on Spivey et al (2004), the CO2 density on Span and Wagner (1996), and viscosity of CO2 on . Dimensionless numbers calculated for field cases are listed in Table 3.9.…”

Section: Scaling Of the Experiments And Field Casesmentioning

confidence: 99%

Use of low- and high-IFT fluid systems in experimental and numerical modelling of systems that mimic CO2 storage in deep saline formations

Polak

Cinar

Holt

et al. 2015

Journal of Petroleum Science and Engineering

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Section: Scaling Of the Experiments And Field Casesmentioning

confidence: 99%

Use of low- and high-IFT fluid systems in experimental and numerical modelling of systems that mimic CO2 storage in deep saline formations

Polak

Cinar

Holt

et al. 2015

Journal of Petroleum Science and Engineering

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“…This study also notes that Kestin et al (1981) algorithm seems to be the most versatile for the calculation of water viscosity. Another study by Spivey (2004) also states that the Kestin viscosity correlation agrees extremely well with the IAPWS correlation for the pure water viscosity. This correlation has an estimated uncertainty of 0.5% for temperatures between 25 and 150° C and pressures up to 30 MPa and for a sodium chloride concentration between 0 and 5.4 moles/kg water.…”

Section: Viscositymentioning

confidence: 54%

“…The densities given by the Spivey (2004) correlation are accurate within 0.01% for temperatures between 25 and 85° C and pressures up to 100 MPa. Thus this relation is valid within the given range of reservoir conditions.…”

Section: Densitymentioning

confidence: 79%

“…Many equations for the brine density can be found in the literature (e.g., Rogers and Pitzer 1982;Spivey et al 2004;Mao and Duan 2008) It was chosen to use the brine-density correlation of Spivey (2004) that gives the density of sodium chloride brines. This correlation is valid from 0 to 275° C, pressures from 0.1 to 200 MPa and Sodium Chloride content from 0 to 6 moles/kg H 2 O.…”

Section: Densitymentioning

confidence: 99%

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Optimization of Geothermal-Well-Doublet Placement

Smit¹,

Salimi

Wolf

2014

Proceedings

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The lifetime of geothermal projects mainly depends on the thermal breakthrough (thermal breakthrough occurs when a cold water front reaches the producer). Currently, geothermal-energy production is marginally economical because of its uncertainties and risks associated with the subsurface such as lifetime, flow rate, temperature. Lifetime of a geothermal reservoir plays the most important role in the use of geothermal energy because it mainly determines whether or not geothermal-energy production is economically viable.Through optimization of the well positions from one or more geothermal doublets in a homogeneous or heterogeneous reservoir, the profitability of the project, which is largely dependent on the time of compositional breakthrough, temperature breakthrough and the rate of temperature decline, can be improved. This thesis studies optimization of the well positions such that the Net Present Value (NPV) of a project is maximized in a 2D geothermal reservoir for the selected heterogeneity structure. For this purpose an automated, gradient-based optimization method is used. The approach is based on the concept to surround the wells, whose locations have to be optimized, by so-called pseudo-wells. The reservoir simulations are performed using the Finite Element Method in the program COMSOL Multiphysics 4.2a. The major features of the simulation results are discussed in detail.The compositional front moves faster than the thermal front (the ratio of these two is the thermal retardation factor). Breakthrough of water with altered composition will therefore occur at an early stage in the doublet lifetime. Reservoir heterogeneities influence the time at which thermal and compositional breakthrough occur and also determine the rate at which temperature and composition decline after breakthrough. The temperature and compositional decline curves after breakthrough are generally steeper in a homogeneous reservoir than in a heterogeneous reservoir. Therefore, the thermal breakthrough does not necessarily mean the end of the lifetime of a doublet. It is also shown that the effect of heterogeneities on the thermal retardation factor is small.Three successful optimization sequences in two different reservoirs are described in this thesis. It is shown that, from an economical standpoint, is makes little sense to assume a doublet lifetime of more than 30 years. Furthermore, the effectiveness at which a geothermal doublet is able to deplete a reservoir (recovery factor) and profitability of a geothermal doublet are closely interlinked. However, a higher recovery factor does not necessarily mean that the doublet is more profitable and vice versa. There exists an optimum well spacing for doublets positioned in homogeneous reservoirs, such that additional gain of later breakthrough (when placing the production well further away from the injector) is negated by the loss in pressure support of the injection well. This optimum well spacing is found to be an important factor, influencing the profitability in homogeneous...

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“…For the NaCl-H 2 O system, there are two viscosity models covering a large T -P-m region. One model was developed by Spivey et al [18], which is compared with reliable experimental data (273 K to 423 K, 1 bar to 350 bar, and 0 to 6 mol · kg −1 ) 5, the binary viscosity model is extrapolated to predict the viscosity of ternary aqueous alkali-chloride solutions.…”

Section: Introductionmentioning

confidence: 99%

The Viscosity of Aqueous Alkali-Chloride Solutions up to 623 K, 1,000 bar, and High Ionic Strength

Mao

Duan

2009

Int J Thermophys

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An accurate viscosity (dynamic viscosity) model is developed for aqueous alkali-chloride solutions of the binary systems, LiCl-H 2 O, NaCl-H 2 O, and KCl-H 2 O, from 273 K to 623 K, and from 1 bar to 1,000 bar and up to high ionic strength. The valid ionic strengths for the LiCl-H 2 O, NaCl-H 2 O, and KCl-H 2 O systems are 0 to 16.7 mol · kg −1 , 0 to 6mol · kg −1 , and 0 to 4.5 mol · kg −1 , respectively. Comparison of the model with about 4,150 experimental data points concludes that the average absolute viscosity deviation from experimental data in the above range is within or about 1 % for the LiCl-H 2 O, NaCl-H 2 O, and KCl-H 2 O mixtures, indicating the model is of experimental accuracy. With a simple mixing rule, this model can be extrapolated to predict the viscosity of ternary aqueous alkali-chloride solutions, making it useful in reservoir fluid flow simulation. A computer code is developed for this model and can be obtained from the author: (maoshide@cugb.edu.cn).

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Estimating Density, Formation Volume Factor, Compressibility, Methane Solubility, and Viscosity for Oilfield Brines at Temperatures From 0 to 275 ° C, Pressures to 200 MPa, and Salinities to 5.7 mole/kg

Cited by 63 publications

References 0 publications

Use of low- and high-IFT fluid systems in experimental and numerical modelling of systems that mimic CO2 storage in deep saline formations

Use of low- and high-IFT fluid systems in experimental and numerical modelling of systems that mimic CO2 storage in deep saline formations

Optimization of Geothermal-Well-Doublet Placement

The Viscosity of Aqueous Alkali-Chloride Solutions up to 623 K, 1,000 bar, and High Ionic Strength

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