Tytuł artykułu
Treść / Zawartość
Pełne teksty:
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Barbotage reactors extensively used in various branches of industry and bioengineering have been investigated in numerous studies. Recently the moving bed has become a popular solution in sewage and water treatment processes. Purification and transportation of small amounts of sewage from households and industrial plants is a hydraulic and technological problem for the sewage system and sewage treatment plants. A hybrid barbotage reactor (HBR) may be applied to transport small wastewater volumes while simultaneously aerating sewage. This study was conducted on a prototype hybrid barbotage reactor equipped with a pipe element for sewage circulation and aeration, which was packed with a moving bed to 20% of its volume. Based on the results of measurements, oxidation curves have been plotted and the efficiencies of sewage treatment have been calculated for the reactor aerated in the continuous and intermittent modes. The amount of energy used to treat and transport sewage has been established.
Czasopismo
Rocznik
Tom
Strony
79--95
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- Department of Hydraulic and Sanitary Engineering, Poznań University of Life Sciences, Piątkowska 94A, 60-649 Poznań, Poland
autor
- Department of Hydraulic and Sanitary Engineering, Poznań University of Life Sciences, Piątkowska 94A, 60-649 Poznań, Poland
autor
- Department of Hydraulic and Sanitary Engineering, Poznań University of Life Sciences, Piątkowska 94A, 60-649 Poznań, Poland
Bibliografia
- [1] MERCHUK J., CAMACHO G.F., Bioreactors: Air-lift Reactors, [In]: M.C. Flickinger (Ed.), Encyclopedia of Industrial Biotechnology: Bioprocess, Bioseparation, and Cell Technology, Wiley, Hoboken 2010, 887–953.
- [2] HOSSEINIA N.S., SHANGA H., ROSS G.M., SCOTT J.A., Microalgae cultivation in a novel top-lit gas-lift open bioreactor, Biores. Techn., 2015, 192, 432–440.
- [3] ASADI A., ZINATIZADEHA A.A., LOOSDRECHT M.V., High rate simultaneous nutrients removal in a single airlift bioreactor with continuous feed and intermittent discharge regime: Process optimization and effect of feed characteristics, Chem.Eng., 2016, 301, 200–209.
- [4] LI X., HUANG Y., YUAN Y., BI Z., LIU X., Startup and operating characteristics of an external air-lift reflux partial nitritation-ANAMMOX integrative reactor, Biores. Techn., 2017, 238, 657–665.
- [5] CHAI L.-Y., ALI M., MIN X.-B., SONG Y.-X., TANG C.-J., WANG H.-Y., YANG Z.-H., Partial nitrification in an air-lift reactor with long-term feeding of increasing ammonium concentrations, Biores. Techn., 2015, 185, 134–142.
- [6] AHMADI F., ZINATIZADEH A.A., ASADI A., MCKAY T., AZIZI S., Simultaneous carbon and nutrients removal and PHA production in a novel single airlift bioreactor treating an industrial wastewater, Environ. Techn. Inn., 2020, 18, 100776–100791.
- [7] RAHMAN-AL EZZI A.A., NAJMULDEEN G.F., Application of a novel design for airlift reactor in wastewater treatment, Int. J. Sci. Res. Sci., Eng. Tech., 2015, 1, 1–7.
- [8] CAI Y., LI X., ZAIDI A.A., SHI Y., ZHANG K., FENG R., LIU C., Effect of hydraulic retention time on pollutants removal from real ship sewage treatment via a pilot-scale air-lift multilevel circulation membrane bioreactor, Chemosphere, 2019, 236, 124338–124350.
- [9] SHUJIE L., LIANFENG Z., SHUWEI K., XU L., FUMING C., QIDIAN Z., Performance of an integrated reactor with airlift loop and sedimentation for municipal wastewater treatment: A 150 m3/d pilot case study, Can. J. Chem. Eng., 2019, 98 (2), 1–9.
- [10] NOWAK A., MAZUR R., PANEK E., DACEWICZ E., CHMIELOWSKI K., Treatment efficiency of fish processing wastewater in different types of biological reactors, Phys. Chem. Earth, 2018, 109, 40–48.
- [11] GONZALEZ-TINEO P.A., DURÁN-HINOJOSA U., DELGADILLO-MIRQUEZ L.R., MEZA-ESCALANTE E.R., GORTÁRES-MOROYOQUI P., ULLOA-MERCADO R.G., SERRANO-PALACIOS D., Performance improvement of an integrated anaerobic-aerobic hybrid reactor for the treatment of swine wastewater, J. Water Proc. Eng., 2020, 34, 101164–101172.
- [12] JASEM Y.I., JUMAHA G.F., GHAWI A.H., Treatment of medical wastewater by moving bed bioreactor system, J. Ecol. Eng., 2018, 19, 135–140.
- [13] KARUNARATHNE T., DE SILVA L.K.U., JINADASA K.B.S.N., Treatment of wastewater with high nitrogen loading by moving bed biofilm reactor, [In]: R. Dissanayake, P. Mendis (Eds.), ICSBE 2018, Lecture Notes in Civil Engineering, Springer, Singapore, 2018.
- [14] LEYVA-DÍAZ J.C., MARTÍN-PASCUAL J., POYATOS J.M., Moving bed biofilm reactor to treat wastewater, J. Environ. Sci. Technol., 2016, 14 (4), 881–910.
- [15] SAFWAT M., Moving bed biofilm reactors for wastewater treatment: A review of basic concepts, Int. J. Res., 2019, 6 (10), 85–90.
- [16] QIQI Y., QIANG H., IBRAHIM H.T., Review on moving bed biofilm processes, Pakistan J. Nutr., 2012, 11 (9), 706–713.
- [17] LONGO S., D’ANTONI B.M., BONGARDS M., CHAPARRO A., CRONRATH A., FATONE F., LEMA J.M., MAURICIO-IGLESIAS M., SOARES A., HOSPIDO A., Monitoring and diagnosis of energy consumption in wastewater treatment plants. A state of the art and proposals for improvement, Appl. En., 2016, 176, 1251–1268.
- [18] HENRIQUES J., CATARINO J., Sustainable value. An energy efficiency indicator in wastewater treatment plants, J. Clean. Prod., 2017, 142, 323–330.
- [19] MASŁOŃ A., Energy consumption of selected wastewater treatment plants located in south-eastern Poland, Eng. Environ. Protect., 2017, 20 (3), 331–342.
- [20] KUJAWIAK S., MAKOWSKA M., MAZURKIEWICZ J., The effect of hydraulic conditions in barbotage reactors on aeration efficiency, Water, 2020, 12 (3), 724–748.
- [21] ANTHONISEN A.C., LOEHR R.C., PRAKASAM T.B.S., SRINATH E.G., Inhibition of nitrification by ammonia and nitrous acid, J. Water Pollut. Control. Fed., 1976, 48 (5), 835–852.
- [22] HERRMANN-HEBER R., REINECKE S.F., HAMPEL U., Dynamic aeration for improved oxygen mass transfer in the wastewater treatment process, Chem. Eng. J., 2019, 122068–122077.
- [23] SAMUDRO G., MANGKOEDIHARDJO S., Review on BOD, COD and BOD/COD ratio: a triangle zone for toxic, biodegradable and stable levels, Int. J. Acad. Res., 2010, 40 (2), 1–5.
- [24] BUNCE J.T., NDAM E., OFITERU I.D., MOORE A., GRAHAM D.W., A Review of phosphorus removal technologies and their applicability to small-scale domestic wastewater treatment systems, Front. Environ.Sci., 2018, 6 , 1–15.
- [25] ALI M., CHAI L.-Y., MIN X.-B., TANG C.-J., AFRIN S., LIAO Q., ZHENG P., Performance and characteristics of a nitritation air-lift reactor under long-term HRT shortening, Int. Biodet. Biodeg., 2016, 111, 45–53.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a33880dd-f560-4c62-a4f2-f7dcddaeee0e