Design of an Extractive Distillation Column for the Environmentally Benign Separation of Zirconium and Hafnium Tetrachloride for Nuclear Power Reactor Applications

Minh, Lê Quang; Long, Nguyen Van Duc; Duong, Pham Luu Trung; Jung, Youngmi; Bahadori, Alireza; Lee, Moonyong

doi:10.3390/en80910354

Cited by 7 publications

(3 citation statements)

References 28 publications

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“…Obtaining pure hafnium poses an additional challenge due to its inseparable association with zirconium, a companion element found in the natural raw material. Various techniques have been • τ = 30 min employed to address these challenges, including solvent extraction, carbochlorination, Kroll reduction, vacuum distillation, and electron beam melting [2][3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Electron beam melting efficiency at multiple hafnium e-beam processing

Markov,

Stefanova,

Vutova

et al. 2024

J. Phys.: Conf. Ser.

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The method of electron beam melting and vacuum refining has clear advantages over other metallurgical methods since it enables manufacturing of refractory and chemically active metals. This study focuses on the efficiency of removing impurities from technogenic hafnium under multiple electron beam melting. Assessments are performed on the efficiency of double and triple e-beam melting processing of refractory metal hafnium. The influence of different e-beam melting technological modes on the refining effectiveness is investigated. A highest hafnium purity of 99.2% was achieved after double and triple e-beam refinements of the investigated materials, with the highest process efficiency reaching 61.58% and 51.07%, respectively.

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Section: Introductionmentioning

confidence: 99%

Electron beam melting efficiency at multiple hafnium e-beam processing

Markov,

Stefanova,

Vutova

et al. 2024

J. Phys.: Conf. Ser.

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“…One of the most attractive solutions is using cleaner electricity generated from sustainable energy sources, such as wind power and solar cells. Heat pump (HP) technology, which allows for the use of the waste heat released at the condenser for supplying energy to the reboiler, is a cost-effective approach to reducing the energy requirement of the distillation column [8][9][10][11]. This technology can be beneficial in the case of the small temperature difference between the overhead and bottom of the column and the high heat load.…”

Section: Introductionmentioning

confidence: 99%

Enhancement of a R-410A Reclamation Process Using Various Heat-Pump-Assisted Distillation Configurations

et al. 2019

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Distillation for R-410A reclamation from a waste refrigerant is an energy-intensive process. Thus, various heat pump configurations were proposed to enhance the energy efficiency of existing conventional distillation columns for separating R-410A and R-22. One new heat pump configuration combining a vapor compression (VC) heat pump with cold water and hot water cycles was suggested for easy operation and control. Both advantages and disadvantages of each heat pump configuration were also evaluated. The results showed that the mechanical vapor recompression heat pump with top vapor superheating saved up to 29.5%, 100.0%, and 10.5% of the energy required in the condenser duty, reboiler duty, and operating cost, respectively, compared to a classical heat pump system, and 85.2%, 100.0%, and 60.8%, respectively, compared to the existing conventional column. In addition, this work demonstrated that the operating pressure of a VC heat pump could be lower than that of the existing distillation column, allowing for an increase in capacity of up to 20%. In addition, replacing the throttle valve with a hydraulic turbine showed isentropic expansion can decrease the operating cost by up to 20.9% as compared to the new heat pump configuration without a hydraulic turbine. Furthermore, the reduction in carbon dioxide emission was investigated to assess the environmental impact of all proposed sequences.

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“…This is probably its main draw back. Various technologies such as heat pump assisted distillation [3][4][5], distillation with vapor recompression [6][7][8][9], distillation with bottom flashing [10,11] and internally heat integrated distillation columns (i-HIDiC) [12][13][14][15][16][17] have been developed previously for reducing energy requirements of distillation systems. Simplified process flow diagrams of bottom flashing heat pump is shown in Fig.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of a novel configuration of bottom flashing on dual distillation columns for saving energy

et al. 2017

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Vapor recompression and bottom flashing are among the developed technologies for enhancing energy efficiency of distillation processes. In this paper, a novel configuration of bottom flashing system is proposed for enhancing energy efficiency of dual columns such as direct distillation sequences. The system is designed to operate between two distillation columns. The proposed system engages two separate distillation columns, both of which can be wide boiling systems. The system incorporates two interacting bottom flashing systems that engage the two distillation columns through heat transfer from the top product of the second column to the bottom product of the first column which in turn results in elimination/reduction of utility requirements of condenser of the second column along with reboiler of the first column. Based on the results of this study, compared to conventional direct sequence distillation, 40.3% reduction in energy requirements and 20.7% reduction total annual costs of the process can be obtained through application of the proposed system.

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Design of an Extractive Distillation Column for the Environmentally Benign Separation of Zirconium and Hafnium Tetrachloride for Nuclear Power Reactor Applications

Cited by 7 publications

References 28 publications

Electron beam melting efficiency at multiple hafnium e-beam processing

Electron beam melting efficiency at multiple hafnium e-beam processing

Enhancement of a R-410A Reclamation Process Using Various Heat-Pump-Assisted Distillation Configurations

Evaluation of a novel configuration of bottom flashing on dual distillation columns for saving energy

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