Kinetic Study for Platinum Extraction from Spent Catalyst in Cyanide Solution at High Temperatures

AbstractIn this research, the kinetics of platinum extraction from a selective linear paraffin dehydrogenation spent catalyst in cyanide solutions at high pressure and temperature was experimentally studied. Three variables, including reaction temperature, initial sodium cyanide concentration in solution and liquid to solid weight ratio were investigated. Based on the design of experiments via response surface methodology (RSM) by computer simulating software “Minitab 16”, experiments were carried out at operating conditions including five solution temperatures, five initial concentrations of cyanide solution and five liquid/solid weight ratios. The effects of these operating conditions on the reaction kinetics and extraction time were determined. The obtained kinetics data were fitted into an empirical power–law rate equation. The kinetics model parameters were evaluated by using experimental data via non-linear regression analysis. It was found that the platinum extraction from a selective linear paraffin dehydrogenation spent catalyst in cyanide solution at high pressure and temperature can be appropriately modeled by the proposed correlation in the selected range of operating conditions.

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Recovery of Ammonium Metavanadate from Spent Catalyst

Jurnal Rekayasa Kimia & Lingkungan ◽

10.23955/rkl.v15i1.12375 ◽

2020 ◽

Vol 15 (1) ◽

pp. 21-30

Author(s):

Lienda Aliwarga ◽

Maya Ramadianti Musadi

Keyword(s):

Room Temperature ◽

Environmental Problem ◽

Weight Ratio ◽

Operating Conditions ◽

Iron Compounds ◽

Spent Catalyst ◽

Toxic Material ◽

Spent Catalysts ◽

High Yields ◽

Solvent Volume

Utilization of spent catalysts serves to meet the needs of vanadium and to overcome the environmental problem since vanadium is categorized as a hazardous, toxic material. Vanadium from the spent catalysts can be recovered in the form of V2O5 or NH4VO3. However, vanadate compounds (NH4VO3) are considered to be more valuable due to their higher price and easier production process, compared with V2O5. This study aims to find adequate operating conditions to obtain high yields and high purity of NH4VO3 crystals. The results showed that the presence of iron compounds in the extract made the crystals contaminated by brownish colour, so it decreased its purity. Therefore, iron compounds need to be separated first with precipitation. Crystals of NH4VO3 with yield of 60% on spent catalysts and purity of 75% were obtained by extraction using solvent Na2CO3 1.887 M for 60 minutes at room temperature with weight ratio of V2O5 in spent catalyst toward solvent volume (Rvp), 0.006 gram V2O5/mL Na2CO3. It was then continued by precipitation of iron compounds at pH of 12 for 2 hours and crystallization of NH4VO3 using NH4Cl 11.215 M for 4 - 5 hours at 60oC.

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EVIDENCE FOR HIGH PRESSURE AND TEMPERATURE CRYSTALLIZATION IN BONINITE SAMPLES RECOVERED DURING IODP EXPEDITION 352

10.1130/abs/2018rm-314170 ◽

2018 ◽

Author(s):

Jesse Scholpp ◽

◽

Stephen Hill ◽

Antonio Luna ◽

Jeffrey Ryan

Keyword(s):

High Pressure ◽

High Pressure And Temperature ◽

Temperature Crystallization

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Chemical Stability of FeOOH at High Pressure and Temperature, and Oxygen Recycling in Early Earth History

European Journal of Inorganic Chemistry ◽

10.1002/ejic.202100599 ◽

2021 ◽

Author(s):

Egor Koemets ◽

Timofey Fedotenko ◽

Saiana Khandarkhaeva ◽

Maxim Bykov ◽

Elena Bykova ◽

...

Keyword(s):

High Pressure ◽

Chemical Stability ◽

Early Earth ◽

High Pressure And Temperature ◽

Earth History

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Modeling Bacterial Regrowth and Trihalomethane Formation in Water Distribution Systems

Water ◽

10.3390/w13040463 ◽

2021 ◽

Vol 13 (4) ◽

pp. 463

Author(s):

Gopinathan R. Abhijith ◽

Leonid Kadinski ◽

Avi Ostfeld

Keyword(s):

Distribution Systems ◽

Water Distribution ◽

Mechanistic Model ◽

Water Distribution Systems ◽

Sensitivity Study ◽

Operating Conditions ◽

Growth Rate Constant ◽

Model Parameters ◽

Bacterial Regrowth ◽

The Impact

The formation of bacterial regrowth and disinfection by-products is ubiquitous in chlorinated water distribution systems (WDSs) operated with organic loads. A generic, easy-to-use mechanistic model describing the fundamental processes governing the interrelationship between chlorine, total organic carbon (TOC), and bacteria to analyze the spatiotemporal water quality variations in WDSs was developed using EPANET-MSX. The representation of multispecies reactions was simplified to minimize the interdependent model parameters. The physicochemical/biological processes that cannot be experimentally determined were neglected. The effects of source water characteristics and water residence time on controlling bacterial regrowth and Trihalomethane (THM) formation in two well-tested systems under chlorinated and non-chlorinated conditions were analyzed by applying the model. The results established that a 100% increase in the free chlorine concentration and a 50% reduction in the TOC at the source effectuated a 5.87 log scale decrement in the bacteriological activity at the expense of a 60% increase in THM formation. The sensitivity study showed the impact of the operating conditions and the network characteristics in determining parameter sensitivities to model outputs. The maximum specific growth rate constant for bulk phase bacteria was found to be the most sensitive parameter to the predicted bacterial regrowth.

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INVESTIGATION OF CO2 AND METHANOL SOLUBILITY AT HIGH PRESSURE AND TEMPERATURE IN THE IONIC LIQUID [EMIM][BF4] EMPLOYED DURING METHANOL SYNTHESIS IN A MEMBRANE-CONTACTOR REACTOR

Chemical Engineering Science ◽

10.1016/j.ces.2021.116722 ◽

2021 ◽

pp. 116722

Author(s):

Fatemeh Sadat Zebarjad ◽

Zi Wang ◽

Hao Li ◽

Sheng Hu ◽

Yongchun Tang ◽

...

Keyword(s):

High Pressure ◽

Ionic Liquid ◽

Methanol Synthesis ◽

Membrane Contactor ◽

High Pressure And Temperature

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Determination of synchronous generator nonlinear model parameters based on power rejection tests using a gradient optimization algorithm

Bulletin of the Polish Academy of Sciences Technical Sciences ◽

10.1515/bpasts-2017-0053 ◽

2017 ◽

Vol 65 (4) ◽

pp. 479-488 ◽

Cited By ~ 4

Author(s):

A. Boboń ◽

A. Nocoń ◽

S. Paszek ◽

P. Pruski

Keyword(s):

Parameter Estimation ◽

Objective Function ◽

Optimization Algorithm ◽

Least Squares Method ◽

Synchronous Generator ◽

Operating Conditions ◽

Model Parameters ◽

State Variables ◽

Starting Point ◽

Gradient Optimization

AbstractThe paper presents a method for determining electromagnetic parameters of different synchronous generator models based on dynamic waveforms measured at power rejection. Such a test can be performed safely under normal operating conditions of a generator working in a power plant. A generator model was investigated, expressed by reactances and time constants of steady, transient, and subtransient state in the d and q axes, as well as the circuit models (type (3,3) and (2,2)) expressed by resistances and inductances of stator, excitation, and equivalent rotor damping circuits windings. All these models approximately take into account the influence of magnetic core saturation. The least squares method was used for parameter estimation. There was minimized the objective function defined as the mean square error between the measured waveforms and the waveforms calculated based on the mathematical models. A method of determining the initial values of those state variables which also depend on the searched parameters is presented. To minimize the objective function, a gradient optimization algorithm finding local minima for a selected starting point was used. To get closer to the global minimum, calculations were repeated many times, taking into account the inequality constraints for the searched parameters. The paper presents the parameter estimation results and a comparison of the waveforms measured and calculated based on the final parameters for 200 MW and 50 MW turbogenerators.

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