In situ determination of rheological properties and void fraction in Hanford Waste Tank 241-SY-101

Stewart, Charles W.; Shepard, C.L.; Alzheimer, J.M.; Stokes, T.I.; Terrones, Guillermo

doi:10.2172/95280

Cited by 8 publications

(20 citation statements)

References 1 publication

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“…The ball-rheometer data are not considered in this summary because the measurements were limited to regions of the sediments with a shear strength less than 900 Pa (the ball would be supported by sediment with a shear strength ≥ 900 Pa;. The ball-rheometer was unable to be deployed to the tank bottom in each of the six listed waste tanks; in AN-103, the ball was supported at greater than half of the sediment depth Stewart et al 1995). Thus, to represent a sediment over its entire depth, the ball rheometer data can be biased low.…”

Section: Shear-strength Measurement Techniquesmentioning

confidence: 99%

“…The yield stress of the settled layer, as measured with the ball rheometer in riser 4A (renumbered to riser 006), approximately 10 days after the mixer pump was directed at that location, was about 10 Pa at 24 inches above the tank bottom and 30 Pa at 6 inches (Stewart et al 1995). The ball apparently did not reach the tank bottom, indicating that it was fully supported by the waste, which thus has a shear strength of at least 900 Pa ).…”

Section: Sy-101mentioning

confidence: 99%

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An Approach to Understanding Cohesive Slurry Settling, Mobilization, and Hydrogen Gas Retention in Pulsed Jet Mixed Vessels

Gauglitz¹,

Wells²,

Fort³

et al. 2009

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Section: Shear-strength Measurement Techniquesmentioning

confidence: 99%

Section: Sy-101mentioning

confidence: 99%

An Approach to Understanding Cohesive Slurry Settling, Mobilization, and Hydrogen Gas Retention in Pulsed Jet Mixed Vessels

Gauglitz¹,

Wells²,

Fort³

et al. 2009

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“…They have performed as designed in all tests and had no significant problems. The initial testing program in SY-101 and SY-103 is documented in Stewart et al (1995), Brewster et al (1995), and Shepard et al (1995).…”

Section: Description Of the Ball Rheometer And Vfimentioning

confidence: 99%

“…The Ball Rheometer System Design Description, WHC-SD-WM-SDD-043, discusses in detail all design information and references all other design documents pertaining to the ball rheometer (also see Stewart et al 1995). The ball rheometer system, shown in Figure 1.1, consists of a71-N (16 Ib), 9.12-cm-diameter tungsten alloy ball tethered to a steel cable that is wound onto a spool or drum: The cable runs through a guide that distributes the line across the width of the spool, so only a single layer of cable is needed on the spool.…”

Section: Ball Rheometermentioning

confidence: 99%

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In situ rheology and gas volume in Hanford double-shell waste tanks

Stewart¹,

Alzheimer²,

Brewster³

et al. 1996

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The behavior, quantity, and location of undissolved gas in Tank 241-SY-101

Brewster¹,

Gallagher²,

Hudson³

et al. 1995

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Mitigation of episodic flammable gas releases from Hanford Waste Tank 241-SY-101 was accomplished in July 1993 with the installation of a mixer pump that prevents gas retention. But it has not been possible until recently to measure the effects of mixing on the waste or how much gas remains and where it is located. Direct measurements of the void fraction and rheology of the mixed waste by the void fraction instrument provide estimates of the location, quantity, and behavior of undissolved gas in the tank. This report documents the compilation and integration of the information that enables this understanding. * and ball rheometer along with previous data iii V possible to measure properties in situ at specific points by using the ball rheometer and the VFI. When integrated, this information provides a framework from which the quantity and distribution of retained (undissolved) gas in Tank 241-SY-101 can be estimated. The results of this analysis, summarized in Table 4.4 of the report, indicate that the tank currently contains approximately 5,700 ft3 of gas in situ (3.8% average void), or about 7,800 ft3 when expanded to atmospheric pressure. In addition to the "best" estimate derived from in-tank temperature and property measurements, two other estimation methods were considered in this report. The first of these correlates atmospheric pressure and waste surface level to determine the waste compressibility. This compressibility, along with an assumed gas elevation, yields an estimate of the gas volume that is consistent with the best estimate described above, provided that the gas elevation is defmed properly. The second method, developed in support of the current mixer pump safety assessment, uses an extrapolation of retained gas estimates from historical data prior to pump installation to determine a gas-free waste level. The current gas inventory is interpolated between the gas-free state and that just prior to a large gas release event using waste surface level measurements. As proposed, this method gives significantly larger volumes than the best estimate, but it can be made consistent by correcting some of its assumptions. Direct measurements, similar to those of the VFI, are difficult, expensive, and available. from only a few locations in the tank. But indirect measurements, such as the response of the tank waste level to barometric pressure changes, provide little information about the distribution of the gas and, in fact, require some knowledge of the distribution of the gas in order to provide an estimate of retained gas quantity. To help address this problem, a set of dynamic bubble/particle models has been developed that provide insight into the state, amount, and distribution of retained gas in Tank 241-SY-101 as it responds to the mixer pump and barometric pressure variations. The models predict average amounts of retained gas in various layers of the tank-crust, convective layer, and loosely-settled layer that are compared with the VFI measurements to calibrate the model. While the models have no...

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In situ determination of rheological properties and void fraction in Hanford Waste Tank 241-SY-101

Cited by 8 publications

References 1 publication

An Approach to Understanding Cohesive Slurry Settling, Mobilization, and Hydrogen Gas Retention in Pulsed Jet Mixed Vessels

An Approach to Understanding Cohesive Slurry Settling, Mobilization, and Hydrogen Gas Retention in Pulsed Jet Mixed Vessels

In situ rheology and gas volume in Hanford double-shell waste tanks

The behavior, quantity, and location of undissolved gas in Tank 241-SY-101

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