Flowsheet Testing for Strip Effluent to Slurry Mix Evaporator Modifications at the Defense Waste Processing Facility

Zamecnik, J.R.

doi:10.2172/1179210

Cited by 2 publications

(5 citation statements)

References 4 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A study was completed by SRNL to evaluate whether the addition of SEFT in the SME cycle would have any influence on nitric-formic Acid Flowsheet CPC processing. 3 This testing was designed to bound all future DWPF processing, so it included high noble metal concentration (HM or H Modified) and high SEFT addition volume (38,000 gallons, 8,000 in SRAT, 30,000 in SME). The report recommended "Based on the testing completed, an endorsement of the flowsheet change for adding strip effluent to the SME is not currently warranted."…”

Section: Nitric-formic Acid Flowsheet Experimental Resultsmentioning

confidence: 99%

“…2 The addition of SE to the SME has been previously studied for the nitric-formic acid flowsheet. 3 This study found that due to the long processing time that results from processing increased volumes of SE may lead to higher hydrogen generation, higher ammonia production, higher formate destruction, lower REDOX ratio, higher potential for foaming and coil fouling, and higher yield stress and consistency. As a result of this testing, the addition of SE to SME was not implemented in DWPF.…”

Section: Introductionmentioning

confidence: 84%

See 1 more Smart Citation

White Paper to Justify the Use of Strip Effluent in the Defense Waste Processing Facility During Slurry Mix Evaporator Processing

Lambert

2020

View full text Add to dashboard Cite

Section: Nitric-formic Acid Flowsheet Experimental Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 84%

White Paper to Justify the Use of Strip Effluent in the Defense Waste Processing Facility During Slurry Mix Evaporator Processing

Lambert

2020

View full text Add to dashboard Cite

“…Testing has been performed for the nitric-formic flowsheet using the SEFT from either the baseline (i.e., BOBCalixC6), the Next Generation Solvent (NGS) (i.e., MaxCalix b ), and the blended solvent systems. 2 Since Sludge Batch (SB) 3, 3 SRNL has performed testing specific to ARP as part of nitric-formic flowsheet testing with simulants. Simulated ARP streams typically added less monosodium titanate c (MST) to the slurry than the SWPF version of AR.…”

Section: Table Of Contentsmentioning

confidence: 99%

“…The first test listed is the evaluation performed for the nitric-formic flowsheet on the inclusion of SEFT material in the SME. 2 Processing difficulties were encountered with heat transfer rod fouling specific to the experimental system that ultimately led to increased hydrogen generation. Lab scale testing simulated a total of 38,000 gallons of SEFT material processed during these cycles split between the SRAT and the SME, for a respectable 80 hour boiling time.…”

Section: Testing Backgroundmentioning

confidence: 99%

“…With the exception of the testing to support sending SEFT material to the SME, 2 Consideration should be given toward testing coupled operation in the shielded cells as part of the qualification. While not strictly required by the DWPF WAC, including PRFT and SEFT material in the qualification of a blend could provide valuable processability information if DWPF employs coupled-only operation.…”

Section: Testing Recommendationsmentioning

confidence: 99%

See 1 more Smart Citation

Impact of Salt Waste Processing Facility Streams on the Nitric-Glycolic Flowsheet in the Chemical Processing Cell

Martino

2017

View full text Add to dashboard Cite

An evaluation of the previous Chemical Processing Cell (CPC) testing was performed to determine whether the planned concurrent operation, or "coupled" operations, of the Defense Waste Processing Facility (DWPF) with the Salt Waste Processing Facility (SWPF) has been adequately covered. Tests with the nitricglycolic acid flowsheet, which were both coupled and uncoupled with salt waste streams, included several tests that required extended boiling times. This report provides the evaluation of previous testing and the testing recommendation requested by Savannah River Remediation. The focus of the evaluation was impact on flammability in CPC vessels (i.e., hydrogen generation rate, SWPF solvent components, antifoam degradation products) and processing impacts (i.e., acid window, melter feed target, rheological properties, antifoam requirements, and chemical composition).Previous testing did not cover the expected Precipitate Reactor Feed Tank (PRFT) volumes or composition, so minor risks remain regarding the impact of material transferred from SWPF to the PRFT on CPC processing (foaming) and product rheology. This impact is independent of the CPC flowsheet used. The risk of not investigating representative PRFT compositions and volumes related to Sludge Receipt and Adjustment Tank (SRAT) chemistry is relatively minor because the monosodium titanate (MST) is largely inert within the CPC operations and the PRFT is processed prior to SRAT acid addition. The PRFT adds soluble components that change the required acid addition, but the impact to processing with the nitricglycolic flowsheet would be minor. The low hydrogen generation of the nitric-glycolic flowsheet is robust with respect to slurry salt content and excess acid addition.Previous testing covered the expected batch volumes of Strip Effluent Feed Tank (SEFT) material. The successful testing of the nitric-glycolic flowsheet simulating 18,000 gallons of SEFT material exceeded the expected maximum batch volume of 15,600 gallons of SEFT material. Additionally, portions of the testing with high batch volumes of SEFT also simulated DWPF boiling times through periods of boiling and simmering. The risk of increasing boiling time is also lessened by use of the nitric-glycolic acid flowsheet because glycolate does not decompose to the same degree as formate during later stages of boiling. Although nitric-glycolic flowsheet testing used the Next Generation Solvent (NGS) feeds in coupled testing, the chemistry impacts of testing with NGS feeds should bound those of the baseline solvent system.If SWPF integration takes place during Sludge Batch (SB) 9 and uses the nitric-glycolic flowsheet, no additional testing is necessary. The gaps in previous testing pertaining to PRFT volumes and composition, SEFT composition, and overall boiling time are relatively minor. The flowsheet testing already performed for SB9 is adequate technical process definition for integration with SWPF.Coupled testing should continue to be performed as part of future nitric-glycolic flowsheet simulan...

show abstract

Flowsheet Testing for Strip Effluent to Slurry Mix Evaporator Modifications at the Defense Waste Processing Facility

Cited by 2 publications

References 4 publications

White Paper to Justify the Use of Strip Effluent in the Defense Waste Processing Facility During Slurry Mix Evaporator Processing

White Paper to Justify the Use of Strip Effluent in the Defense Waste Processing Facility During Slurry Mix Evaporator Processing

Impact of Salt Waste Processing Facility Streams on the Nitric-Glycolic Flowsheet in the Chemical Processing Cell

Contact Info

Product

Resources

About