Numerical Modelling of Dissolving and Driving Exploitation of Potash Salt in the Qarhan Play a—A Coupled Model of Reactive Solute Transport and Chemical Equilibrium in a Multi‐component: Underground Brine System

Zabuye Salt Lake in Tibet, China is a carbonate‐type salt lake, which has some unique characteristics that make it different from other types of salt lakes. The lake is at the latter period in its evolution and contains liquid and solid resources. Its brine is rich in Li, B, K and other useful minor elements that are of great economic value. We studied the concentration behavior of these elements and the crystallization paths of salts during isothermal evaporation of brine at 15°C and 25°C. The crystallization sequence of the primary salts from the brine at 25°C is halite (NaCl) → aphthitalite (3K2SO4·Na2SO4) → zabuyelite (Li2CO3) → trona (Na2CO3·NaHCO3·2H2O) → thermonatrite (Na2CO3·H2O) · sylvite (KCl), while the sequence is halite (NaCl) → sylvite (KCl) → trona (Na2CO3·NaHCO3·2H2O) → zabuyelite (Li2CO3) → thermonatrite (Na2CO3·H2O) → aphthitalite (3K2SO4·Na2SO4) at 15°C. They are in accordance with the metastable phase diagram of the Na+, K+‐Cl−, CO32−, SO42−‐H2O quinary system at 25°C, except for Na2CO3·7H2O which is replaced by trona and thermonatrite. In the 25°C experiment, zabuyelite (Li2CO3) was precipitated in the early stage because Li2CO3 is supersaturated in the brine at 25°C, in contrast with that at 15°C, it precipitated in the later stage. Potash was precipitated in the middle and late stages in both experiments, while boron was concentrated in the early and middle stages and precipitated in the late stage.

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MS-BWME: A Wireless Real-Time Monitoring System for Brine Well Mining Equipment

Xiao

Zhu

et al. 2014

Sensors

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This paper describes a wireless real-time monitoring system (MS-BWME) to monitor the running state of pumps equipment in brine well mining and prevent potential failures that may produce unexpected interruptions with severe consequences. MS-BWME consists of two units: the ZigBee Wireless Sensors Network (WSN) unit and the real-time remote monitoring unit. MS-BWME was implemented and tested in sampled brine wells mining in Qinghai Province and four kinds of indicators were selected to evaluate the performance of the MS-BWME, i.e., sensor calibration, the system's real-time data reception, Received Signal Strength Indicator (RSSI) and sensor node lifetime. The results show that MS-BWME can accurately judge the running state of the pump equipment by acquiring and transmitting the real-time voltage and electric current data of the equipment from the spot and provide real-time decision support aid to help workers overhaul the equipment in a timely manner and resolve failures that might produce unexpected production down-time. The MS-BWME can also be extended to a wide range of equipment monitoring applications.

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Numerical Modelling of Dissolving and Driving Exploitation of Potash Salt in the Qarhan Play a—A Coupled Model of Reactive Solute Transport and Chemical Equilibrium in a Multi‐component: Underground Brine System

Cited by 3 publications

References 12 publications

Experiment study and prediction of freezing temperature of NaHCO3 saline soil

Experiment study and prediction of freezing temperature of NaHCO3 saline soil

Phase Chemistry Study of the Zabuye Salt Lake Brine: Isothermal Evaporation at 15°C and 25°C

MS-BWME: A Wireless Real-Time Monitoring System for Brine Well Mining Equipment

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