Two-Stage Pot Gas Treatment Technology Allowing the Production of Sodium Sulfate

Coal coking wastewater is generated from coking, coal gas purification and coking product recovery process, its composition is complex and difficult to degrade. By introducing the coking wastewater treatment research and application, such as adsorption,coagulation and sedimentation, flue gas treatment and other physical methods, as well advanced oxidation, wet oxidation, Fenton reagent method, photocatalytic oxidation, ultrasonic oxidation, ozone oxidation method, electrochemical oxidation, supercritical water oxidation, incineration and plasma technology, this paper puts forward the trend of coking wastewater treatment technology.

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Cost-Efficient De-Bottlenecking of Produced Water Treatment Systems through the Application of a Single Technology, Eliminating the Need for Hydrocyclones and Degassing Drums

10.2118/207795-ms ◽

2021 ◽

Author(s):

Steinar Asdahl ◽

Johann Jansen van Rensburg ◽

Martin Einarson Waag ◽

Rune Glenna Nilssen

Keyword(s):

Water Treatment ◽

Produced Water ◽

Separation Efficiency ◽

Water System ◽

Treatment Technology ◽

Two Stage ◽

Water Separation ◽

Design Capacity ◽

New Process ◽

Produced Water Treatment

Abstract Traditionally, produced water from production separators is handled by multiple steps and different technologies in order to meet the required quality for either discharge or reinjection of the water. The development of the latest Compact Flotation Unit (CFU) technology has unlocked the potential for savings on cost, complexity, footprint and weight for the produced water treatment system. The developed CFU technology has proven applicable through field testing as a single treatment technology for reducing Oil-in-Water (OiW) content directly from tie-in at separator and still meet stringent requirements for outlet OiW quality. Field tests were conducted with inlet OiW concentration ranging from 200-2000 ppm, achieving results in the range 2.5 to 21 ppm only with a two-stage latest generation CFU. Compared to a traditional produced water system setup consisting of de-oiling hydrocyclones and a horizontal degassing vessel, the savings in footprint and operational weight is estimated to 54 % and 53 % respectively utilizing a two-stage CFU for a system with a design capacity of 76.000 BWPD. Furthermore, the development of the latest generation CFU technology has enabled the retrofit concept, incorporating the developed CFU internals into existing gravity separation based produced water vessels, converting them to more efficient flotation vessels with increased capacity. For brownfield and debottlenecking applications, operators are challenged by increasing water cut from maturing wells, and as a result exceeding the facilities design capacity for produced water treatment. This challenge is often further reinforced by increasingly stricter environmental legislation for OiW content for discharge or re-injection. The retrofit concept will offer a highly cost-, footprint- and weight-efficient solutions to these challenges utilizing existing vessels. Benefits of the retrofit concept: Bring proven and unique performance of the technology to other produced water separation vessels helping the operators improve the separation efficiency and increase throughput while meeting discharge requirementsShort execution time compared to installation of new process equipmentLow cost compared to installation of new process equipmentUtilization of existing equipment saves valuable footprint.

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Climate impact of an optimised gas treatment on old landfills

Waste Management & Research ◽

10.1177/0734242x211070190 ◽

2022 ◽

pp. 0734242X2110701

Author(s):

Roland Berger ◽

Joachim Lehner

Keyword(s):

New Technology ◽

Landfill Gas ◽

Calorific Value ◽

Climate Impact ◽

Treatment Technology ◽

Gas Treatment ◽

Treatment Measures ◽

Established Fact ◽

New Treatment

It is a well-established fact that the quality and quantity of landfill gas (LFG) start declining after a landfill is closed to further waste intake. Conventional gas treatment and utilisation systems such as flares and gas-driven engines require a certain quality of LFG: specifically, a sufficient methane concentration. Various measures are utilised to maintain the necessary quality of LFG, including a turn-down of gas extraction rates and a shutdown of low-quality gas wells, resulting in a decline of LFG production. This, however, does not have to be the case. The low calorific value (LCV) LFG capture and treatment technology developed by e-flox and referred to in this article as ‘LCV LFG System’ can significantly increase the collection rate and the amount of treated methane in an old landfill. This article introduces such new treatment measures, describes gas capture calculation methodologies and presents actual results based on a medium-sized landfill in Germany. The study demonstrates, among other things, that the LCV LFG system can reduce the CO2 avoidance costs to roughly 10 €/tCO2eq. We present this new technology as a quick and straightforward measure of dealing with the climate issues related to methane emissions of old landfills.

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Research Progress of Volatile Organic Compounds Waste Gas Treatment Technology

10.47939/ns.v1i2.13 ◽

2020 ◽

Keyword(s):

Volatile Organic Compounds ◽

Organic Compounds ◽

Research Progress ◽

Treatment Technology ◽

Gas Treatment ◽

Waste Gas ◽

Volatile Organic ◽

Waste Gas Treatment

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Electron beam treatment of simulated marine diesel exhaust gases

Nukleonika ◽

10.1515/nuka-2015-0098 ◽

2015 ◽

Vol 60 (3) ◽

pp. 689-695 ◽

Cited By ~ 6

Author(s):

Janusz Licki ◽

Andrzej Pawelec ◽

Zbigniew Zimek ◽

Sylwia Witman-Zając

Keyword(s):

Electron Beam ◽

Removal Efficiency ◽

Diesel Engines ◽

Diesel Exhaust ◽

Irradiation Dose ◽

Treatment Technology ◽

Gas Treatment ◽

Exhaust Gases ◽

Marine Diesel ◽

Removal Efficiencies

Abstract The exhaust gases from marine diesel engines contain high SO2 and NOx concentration. The applicability of the electron beam flue gas treatment technology for purification of marine diesel exhaust gases containing high SO2 and NOx concentration gases was the main goal of this paper. The study was performed in the laboratory plant with NOx concentration up to 1700 ppmv and SO2 concentration up to 1000 ppmv. Such high NOx and SO2 concentrations were observed in the exhaust gases from marine high-power diesel engines fuelled with different heavy fuel oils. In the first part of study the simulated exhaust gases were irradiated by the electron beam from accelerator. The simultaneous removal of SO2 and NOx were obtained and their removal efficiencies strongly depend on irradiation dose and inlet NOx concentration. For NOx concentrations above 800 ppmv low removal efficiencies were obtained even if applied high doses. In the second part of study the irradiated gases were directed to the seawater scrubber for further purification. The scrubbing process enhances removal efficiencies of both pollutants. The SO2 removal efficiencies above 98.5% were obtained with irradiation dose greater than 5.3 kGy. For inlet NOx concentrations of 1700 ppmv the NOx removal efficiency about 51% was obtained with dose greater than 8.8 kGy. Methods for further increase of NOx removal efficiency are presented in the paper.

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FY-2001 Accomplishments in Off-gas Treatment Technology Development

10.2172/910984 ◽

2001 ◽

Author(s):

Douglas William Marshall

Keyword(s):

Technology Development ◽

Treatment Technology ◽

Gas Treatment

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Efficiency Analysis on Treating Industrial Waste Gas and City's Industry Scale

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.807-809.1190 ◽

2013 ◽

Vol 807-809 ◽

pp. 1190-1193

Author(s):

Qing Chen Shang

Keyword(s):

Efficiency Analysis ◽

Pollution Source ◽

Treatment Technology ◽

Gas Treatment ◽

Waste Gas ◽

Pollution Treatment ◽

Treatment Volume ◽

Waste Gas Treatment ◽

The Relationship ◽

Industrial Center

Industrialization combined with Urbanization makes city an industrial center as well as a core pollution source, which becomes the key for present pollution treatment. In this paper, the relationship between was cost of waste gas treatment and industrial scale for a city is investigated. By regression analysis, its found that pollution treatment technology is no obviously different in main cities of China so far, rough pollution treatment is still the main treatment way which will be more efficient when the pollution treatment volume reaches some scale.

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Decomposition Behavior of Sodium Sulfate in Two-Stage Melting Process (Rough Melting and Refining) for Manufacturing of Sheet Glass

Journal of the Ceramic Association Japan ◽

10.2109/jcersj1950.94.1091_615 ◽

1986 ◽

Vol 94 (1091) ◽

pp. 615-620 ◽

Cited By ~ 1

Author(s):

Chikao TANAKA ◽

Yasumasa NAKAO ◽

Yoshinori KOKUBU ◽

Tetsu MORI ◽

Motoharu KURATA

Keyword(s):

Sheet Glass ◽

Sodium Sulfate ◽

Melting Process ◽

Two Stage ◽

Decomposition Behavior

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Novel off-Gas Treatment Technology To Remove Volatile Organic Compounds with High Concentration

Industrial & Engineering Chemistry Research ◽

10.1021/acs.iecr.5b02662 ◽

2016 ◽

Vol 55 (9) ◽

pp. 2594-2603 ◽

Cited By ~ 9

Author(s):

Hong Sui ◽

Tao Zhang ◽

Jixing Cui ◽

Xiqing Li ◽

John Crittenden ◽

...

Keyword(s):

Volatile Organic Compounds ◽

Organic Compounds ◽

High Concentration ◽

Treatment Technology ◽

Gas Treatment ◽

Volatile Organic

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