Study on Facile and Full-Scale Reuse Treatment of Wastewater Produced from Tail Gas Oxidation-Absorption Technology of Natural Gas Purification Plant

Tang, Quanwu; Li, Jing; Fu, Jun; Ding, Lin; Yi, Chen; Zhao, Lei; Zeng, Qiang; Hu, Chao

doi:10.3390/w15122259

Water

2023

DOI: 10.3390/w15122259

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Study on Facile and Full-Scale Reuse Treatment of Wastewater Produced from Tail Gas Oxidation-Absorption Technology of Natural Gas Purification Plant

Quanwu Tang¹,

Jing Li²,

Jun Fu

et al.

Abstract: The oxidation-absorption technology of tail gas is perfect for natural gas purification plants to ensure the up-to-standard discharge of sulfur dioxide emissions, but it can produce a large amount of wastewater. In this paper, a facile and full-scale reuse treatment strategy based on the sequential combination of disc tube reverse osmosis and low-temperature and low-pressure evaporation desalination was proposed and studied. The produced light yellow wastewater was acid sulfate-rich organic wastewater, in whic… Show more

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Full-Scale Reuse Treatment of Wastewater Produced by Oxidation-Absorption Technology of Tail Gas from Natural Gas Purification Plant

Tang,

Li,

Lin

et al. 2023

Day 1 Mon, October 02, 2023

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Summary Tail gas oxidation-absorption technology which has been applied in natural gas purification plants of the southwest oil & gas field company can get super low SO2 emissions that is better than the discharge standard (GB39728-2020) in china, but it produces huge wastewater. In this paper, the oxidation-absorption technology of natural gas purification plants was described, and wastewater-producing regularity and pollution characteristics were studied in detail. A full-scale reuse treatment strategy of the produced wastewater which was based on the sequential combination of disc-tube reverse osmosis and evaporative desalination at low temperature & low-pressures was proposed, afterward water quality of the wastewater before and after the reuse treatment was investigated. In addition, produced salts were explored by Fourier transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS). With our proposed reuse treatment system, the chroma disappeared, and COD, BOD5, TOC, TN and SS decreased. Meanwhile, salts were produced after the evaporative desalination. They were characterized by FT-IR, SEM and EDS, and the results indicated that the salts were consisted of Na2SO4 but mixed with organic amines (i.e., amine-based SO2 absorbents). As a result, the produced water was reused by the current treatment system in a full-scale, and water quality can meet the national reuse standard (GB/T 18920-2020) in China, which is helpful for extending tail gas oxidation-absorption technology and reducing SO2 emissions in the world.

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Full-Scale Reuse Treatment of Wastewater Produced by Oxidation-Absorption Technology of Tail Gas from Natural Gas Purification Plant

Tang,

Li,

Lin

et al. 2023

Day 1 Mon, October 02, 2023

View full text Add to dashboard Cite

show abstract

Industrial-Scale Application of Amine-Based Tail Gas Oxidation-Absorption Technology Combined with Claus Process for Lowering Sulfur Dioxide Emission from Natural Gas Purification

Tang,

Li,

et al. 2024

Adipec

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Natural gas emits less air pollutants and carbon emissions than other fossil fuels, thereby natural gas consumption is growing rapidly and natural gas purification becomes more important around the world. Claus process and extended Claus process (e.g., superClaus, cold bed adsorption and clinsulf-SDP) are industrialized sulfur recovery systems to convert hydrogen sulfide to sulfur and have been widely used in natural gas purification plants, but there would be a large number of sulfur dioxide emissions. To reduce sulfur dioxide emissions, an innovative tail gas oxidation-absorption technology combined with Claus process has been developed and applied in a natural gas purification plant of PetroChina. In this paper, the tail gas oxidation-absorption technology combined with Claus process was elucidated in detail, an amine-based sulfur dioxide absorbent was employed and evaluated, and key operation parameters such as oxygen volume fraction, burner temperatures, amine-based sulfur dioxide absorbent concentrations, pH of lean amine solution and molar rate of heat stable salts versus the amine-based sulfur dioxide absorbent were investigated and analyzed in an industrial-scale. The key operation parameters were determined as follow. Tail gases of the sulfur recovery system was burned at 810±5°C in a burner, and the oxygen volume fraction was maintained between 3.3v% and 3.7v%. The concentration of amine-based sulfur dioxide absorbents was controlled between 21w% and 25w%. The pH of lean amine solution was optimized among 5.0 to 5.7. In addition, the molar rate of heat stable salts versus the amine-based sulfur dioxide absorbent was controlled between 11:10 and 14:10. As a result, with above operation strategies, super low sulfur dioxide emissions can be gotten below 100mg/m3, which is better than the sulfur dioxide discharge standard of natural gas purification plants (GB39728-2020) in china. Wastewater produced from the amine-based tail gas oxidation-absorption technology was reused. This work would be helpful for exploiting high-sulfur natural gases and decreasing sulfur dioxide emissions from natural gas purification plants in the world.

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Study on Facile and Full-Scale Reuse Treatment of Wastewater Produced from Tail Gas Oxidation-Absorption Technology of Natural Gas Purification Plant

Cited by 2 publications

References 32 publications

Full-Scale Reuse Treatment of Wastewater Produced by Oxidation-Absorption Technology of Tail Gas from Natural Gas Purification Plant

Full-Scale Reuse Treatment of Wastewater Produced by Oxidation-Absorption Technology of Tail Gas from Natural Gas Purification Plant

Industrial-Scale Application of Amine-Based Tail Gas Oxidation-Absorption Technology Combined with Claus Process for Lowering Sulfur Dioxide Emission from Natural Gas Purification

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