This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
BEHESHTI M., SÆGROV S. 2018. Quantification assessment of extraneous water infiltration and inflow by analysis of the thermal behavior of the sewer network. Water 10, 8: 1–17.BEHESHTIM.SÆGROVS.2018Quantification assessment of extraneous water infiltration and inflow by analysis of the thermal behavior of the sewer networkWater108117Search in Google Scholar
BUGAJSKI P. 2007. Dynamika dopływu ścieków do oczyszczalni w Głogowie Małopolskim. Infrastruktura i Ekologia Terenów Wiejskich, 2: 103–109.BUGAJSKIP.2007Dynamika dopływu ścieków do oczyszczalni w Głogowie MałopolskimInfrastruktura i Ekologia Terenów Wiejskich2103109Search in Google Scholar
BUGAJSKI P. 2009. Zmienność ilości dopływających ścieków do oczyszczalni w Tęgoborzy. Infrastruktura i Ekologia Terenów Wiejskich, 9: 23–32.BUGAJSKIP.2009Zmienność ilości dopływających ścieków do oczyszczalni w TęgoborzyInfrastruktura i Ekologia Terenów Wiejskich92332Search in Google Scholar
BUGAJSKI P., KACZOR G., CHMIELOWSKI K. 2017. Variable dynamics of sewage supply to wastewater treatment plant depending on the amount of precipitation water inflowing to sewerage network. Journal of Water and Land Development, 33: 57–63.BUGAJSKIP.KACZORG.CHMIELOWSKIK.2017Variable dynamics of sewage supply to wastewater treatment plant depending on the amount of precipitation water inflowing to sewerage networkJournal of Water and Land Development335763Search in Google Scholar
BUGAJSKI P., NOWOBILSKA-MAJEWSKA E., MAJEWSKI M. 2021. The impact of atmospheric precipitation on wastewater volume flowing into the Wastewater Treatment Plant in Nowy Targ (Poland) in terms of treatment costs. Energies 14, 13: 1–12.BUGAJSKIP.NOWOBILSKA-MAJEWSKAE.MAJEWSKIM.2021The impact of atmospheric precipitation on wastewater volume flowing into the Wastewater Treatment Plant in Nowy Targ (Poland) in terms of treatment costsEnergies1413112Search in Google Scholar
CAHOON L.B., HANKE M.H. 2017. Rainfall effects on inflow and infiltration in wastewater treatment systems in a coastal plain region. Water Science and Technology 75, 8: 1909–1921.CAHOONL.B.HANKEM.H.2017Rainfall effects on inflow and infiltration in wastewater treatment systems in a coastal plain regionWater Science and Technology75819091921Search in Google Scholar
CHMIELOWSKI K. 2019. Impact of atmospheric precipitation on the variability of wastewater discharge from a selected sewage system in Jaworzno. Acta Scientiarum Polonorum. Formatio Circumiectus 18, 2: 39–49.CHMIELOWSKIK.2019Impact of atmospheric precipitation on the variability of wastewater discharge from a selected sewage system in JaworznoActa Scientiarum Polonorum. Formatio Circumiectus1823949Search in Google Scholar
CHMIELOWSKI K., BUGAJSKI P., WĄSIK E., CUPAK A. 2016a. Analiza zmienności dopływu ścieków do oczyszczalni dla aglomeracji Dębica [Analysis of the variability of sewage inflow to the treatment plant for the Dębica agglomeration]. Infrastruktura i Ekologia Terenów Wiejskich [Infrastructure and Ecology of Rural Areas], II/2: 589–603.CHMIELOWSKIK.BUGAJSKIP.WĄSIKE.CUPAKA.2016aAnaliza zmienności dopływu ścieków do oczyszczalni dla aglomeracji Dębica [Analysis of the variability of sewage inflow to the treatment plant for the Dębica agglomeration]Infrastruktura i Ekologia Terenów Wiejskich [Infrastructure and Ecology of Rural Areas]II2589603Search in Google Scholar
CHMIELOWSKI K., MAZUR R., BEDLA D., NOWAK A. 2016b. Analiza obciążenia hydraulicznego w oczyszczalni ścieków w Kolbuszowej Dolnej [Analysis of the hydraulic load in the sewage treatment plant in Kolbuszowa Dolna]. Episteme: Czasopismo Naukowo-Kulturalne [Episteme: Scientific and Cultural Journal] 1, 30: 319–335.CHMIELOWSKIK.MAZURR.BEDLAD.NOWAKA.2016bAnaliza obciążenia hydraulicznego w oczyszczalni ścieków w Kolbuszowej Dolnej [Analysis of the hydraulic load in the sewage treatment plant in Kolbuszowa Dolna]Episteme: Czasopismo Naukowo-Kulturalne [Episteme: Scientific and Cultural Journal]130319335Search in Google Scholar
GOORÉ BI E., GACHON P., VRAC M., MONETTE F. 2017. Which downscaled rainfall data for climate change impact studies in urban areas? Review of current approaches and trends. Theoretical and Applied Climatology, 127: 685–699.GOORÉ BIE.GACHONP.VRACM.MONETTEF.2017Which downscaled rainfall data for climate change impact studies in urban areas? Review of current approaches and trendsTheoretical and Applied Climatology127685699Search in Google Scholar
GUILFORD J.P. 1965. Fundamental Statistics in Psychology and Education. McGraw-Hill, New York.GUILFORDJ.P.1965Fundamental Statistics in Psychology and EducationMcGraw-HillNew YorkSearch in Google Scholar
JIN Y., YOU X.Y., JI M. 2015. On intensive process of quantity and quality improvement of wastewater treatment plant under rainfall conditions. Desalination and Water Treatment 53, 2: 330–339.JINY.YOUX.Y.JIM.2015On intensive process of quantity and quality improvement of wastewater treatment plant under rainfall conditionsDesalination and Water Treatment532330339Search in Google Scholar
JWARA T.Y.S., MUSONGE P., BAKARE B.F. 2020. Effects of hydraulic overload on biological nutrient removal efficiencies in wastewater treatment systems. Proceedings of the 18th South Africa International Conference on Agricultural, Chemical, Biological & Environmental Sciences (ACBES-20) November 16–17, 2020, Johannesburg (SA), 272–275.JWARAT.Y.S.MUSONGEP.BAKAREB.F.2020Effects of hydraulic overload on biological nutrient removal efficiencies in wastewater treatment systemsProceedings of the 18th South Africa International Conference on Agricultural, Chemical, Biological & Environmental Sciences (ACBES-20)November 16–17, 2020Johannesburg (SA)272275Search in Google Scholar
KOZŁOWSKI E., KOWALSKI D., KOWALSKA B., MAZURKIEWICZ D. 2022. Method for assessing the impact of rainfall depth on the stormwater volume in a sanitary sewage network. Archives of Civil and Mechanical Engineering 22: 1–13.KOZŁOWSKIE.KOWALSKID.KOWALSKAB.MAZURKIEWICZD.2022Method for assessing the impact of rainfall depth on the stormwater volume in a sanitary sewage networkArchives of Civil and Mechanical Engineering22113Search in Google Scholar
LABONTÉ-RAYMOND P.L., PABST T., BUSSIÈRE B., BRESSON É. 2020. Impact of climate change on extreme rainfall events and surface water management at mine waste storage facilities. Journal of Hydrology 590, 6.LABONTÉ-RAYMONDP.L.PABSTT.BUSSIÈREB.BRESSONÉ.2020Impact of climate change on extreme rainfall events and surface water management at mine waste storage facilitiesJournal of Hydrology5906Search in Google Scholar
MASŁOŃ A. 2017. Analiza nierównomierności dopływu ścieków do miejskiej oczyszczalni w Zamościu [Analysis of uneven sewage inflow to the municipal sewage treatment plant in Zamość]. Polish Journal for Sustainable Development 21, 1: 41–48.MASŁOŃA.2017Analiza nierównomierności dopływu ścieków do miejskiej oczyszczalni w Zamościu [Analysis of uneven sewage inflow to the municipal sewage treatment plant in Zamość]Polish Journal for Sustainable Development2114148Search in Google Scholar
MIERNIK W., MŁYŃSKI D., WAŁĘGA A., CHMIELOWSKI K., KARWACKI K. 2016. Wpływ ścieków oczyszczonych na oczyszczalni w Myślenicach na jakość wód ich odbiornika [The impact of sewage treated at the Myślenice treatment plant on the quality of receiving water]. Infrastruktura i Ekologia Terenów Wiejskich [Infrastructure and Ecology of Rural Areas], I, 1: 191–207.MIERNIKW.MŁYŃSKID.WAŁĘGAA.CHMIELOWSKIK.KARWACKIK.2016Wpływ ścieków oczyszczonych na oczyszczalni w Myślenicach na jakość wód ich odbiornika [The impact of sewage treated at the Myślenice treatment plant on the quality of receiving water]Infrastruktura i Ekologia Terenów Wiejskich [Infrastructure and Ecology of Rural Areas]I1191207Search in Google Scholar
MINES R.O., LACKEY L.W., BEHREND G.R. 2007. The impact of rainfall on flows and loadings at Georgia's wastewater treatment plants. Proceedings of the 2007 Georgia Water Resources Conference, March 27–29, 2007, University of Georgia.MINESR.O.LACKEYL.W.BEHRENDG.R.2007The impact of rainfall on flows and loadings at Georgia's wastewater treatment plantsProceedings of the 2007 Georgia Water Resources ConferenceMarch 27–29, 2007University of GeorgiaSearch in Google Scholar
MŁYŃSKA A., MŁYŃSKI D., CHMIELOWSKI K. 2022. Analysis of the hydraulic load of a local WWTP in the southeastern Poland including hydraulic capacity of the sewage receiver. Journal of Ecological Engineering 23, 11: 261–272.MŁYŃSKAA.MŁYŃSKID.CHMIELOWSKIK.2022Analysis of the hydraulic load of a local WWTP in the southeastern Poland including hydraulic capacity of the sewage receiverJournal of Ecological Engineering2311261272Search in Google Scholar
MŁYŃSKI D., CHMIELOWSKI K. 2016. Analiza obciążenia hydraulicznego wybranych oczyszczalni powiatu jasielskiego [Analysis of the hydraulic load of selected sewage treatment plants in the Jasło district]. Inżynieria Ekologiczna [Ecological Engineering] 50: 171–178.MŁYŃSKID.CHMIELOWSKIK.2016Analiza obciążenia hydraulicznego wybranych oczyszczalni powiatu jasielskiego [Analysis of the hydraulic load of selected sewage treatment plants in the Jasło district]Inżynieria Ekologiczna [Ecological Engineering]50171178Search in Google Scholar
MŁYŃSKI D., CHMIELOWSKI K., MŁYŃSKA A. 2016. Analysis of hydraulic load of wastewater treatment plant in Jasło. Journal of Water and Land Development 28: 61–67.MŁYŃSKID.CHMIELOWSKIK.MŁYŃSKAA.2016Analysis of hydraulic load of wastewater treatment plant in JasłoJournal of Water and Land Development286167Search in Google Scholar
MŁYŃSKI D., KUREK K., BUGAJSKI P. 2018. An analysis of seasonal waste draining for the urban agglomeration using statistical methods. Water 10, 8: 1–14.MŁYŃSKID.KUREKK.BUGAJSKIP.2018An analysis of seasonal waste draining for the urban agglomeration using statistical methodsWater108114Search in Google Scholar
OBAID H.A., SHAHID S., BASIM K.N., CHELLIAPAN S. 2015. Modeling of wastewater quality in an urban area during festival and rainy days. Water Science and Technology 72, 6: 1029–1042.OBAIDH.A.SHAHIDS.BASIMK.N.CHELLIAPANS.2015Modeling of wastewater quality in an urban area during festival and rainy daysWater Science and Technology72610291042Search in Google Scholar
OLIVEIRA D.B.C., SOARES W.A., HOLANDA M.A.C.R. 2020. Effects of rainwater intrusion on an activated sludge sewer treatment system. Revista Ambiente & Água [Environment & Water Magazine] 15, 3: 1–12.OLIVEIRAD.B.C.SOARESW.A.HOLANDAM.A.C.R.2020Effects of rainwater intrusion on an activated sludge sewer treatment systemRevista Ambiente & Água [Environment & Water Magazine]153112Search in Google Scholar
ORHON D., HALLAÇ E., SOLMAZ B., UBAY-ÇOKGÖR E., SÖZEN S. 2023. Impact of rainwater intrusion on wastewater characterization and performance of nutrient removal activated sludge process. Journal of Chemical Technology & Biotechnology 99, 1: 171–182.ORHOND.HALLAÇE.SOLMAZB.UBAY-ÇOKGÖRE.SÖZENS.2023Impact of rainwater intrusion on wastewater characterization and performance of nutrient removal activated sludge processJournal of Chemical Technology & Biotechnology991171182Search in Google Scholar
PAWLOWSKI C.W., RHEA L., SHUSTER W.D., BARDEN G. 2014. Some factors affecting inflow and infiltration from residential sources in a core urban area: Case study in a Columbus, Ohio, neighborhood. Journal of Hydraulic Engineering 140, 1: 105–114.PAWLOWSKIC.W.RHEAL.SHUSTERW.D.BARDENG.2014Some factors affecting inflow and infiltration from residential sources in a core urban area: Case study in a Columbus, Ohio, neighborhoodJournal of Hydraulic Engineering1401105114Search in Google Scholar
PLÓSZ B.G., LILTVED H., RATNAWEERA H. 2009. Climate change impacts on activated sludge wastewater treatment: a case study from Norway. Water Science and Technology 60, 2: 533–541.PLÓSZB.G.LILTVEDH.RATNAWEERAH.2009Climate change impacts on activated sludge wastewater treatment: a case study from NorwayWater Science and Technology602533541Search in Google Scholar
RASHID S.S., LIU Y.Q. 2020. Assessing environmental impacts of large centralized wastewater treatment plants with combined or separate sewer systems in dry/wet seasons by using LCA. Environmental Science and Pollution Research International 27, 13: 15674–15690.RASHIDS.S.LIUY.Q.2020Assessing environmental impacts of large centralized wastewater treatment plants with combined or separate sewer systems in dry/wet seasons by using LCAEnvironmental Science and Pollution Research International27131567415690Search in Google Scholar
REZAEE M., TABESH M. 2022. Effects of inflow, infiltration, and exfiltration on water footprint increase of a sewer system: A case study of Tehran. Sustainable Cities and Society 79.REZAEEM.TABESHM.2022Effects of inflow, infiltration, and exfiltration on water footprint increase of a sewer system: A case study of TehranSustainable Cities and Society79Search in Google Scholar
SAIKIA S.D, CLIFFORD E., RYAN P. 2020. Modelling the precipitation impacts on wastewater influent volumes in Galway, Ireland. EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-8694. https://doi.org/10.5194/egusphere-egu2020-8694.SAIKIAS.DCLIFFORDE.RYANP.2020Modelling the precipitation impacts on wastewater influent volumes in Galway, IrelandEGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-8694. https://doi.org/10.5194/egusphere-egu2020-8694.Search in Google Scholar
SAIKIA S.D, RYAN P., NUYTS S., CLIFFORD E. 2022. Precipitation, tidal and river level impacts on influent volumes of combined wastewater collection systems: A regional analysis. Results in Engineering 15, 100588: 1–12.SAIKIAS.DRYANP.NUYTSS.CLIFFORDE.2022Precipitation, tidal and river level impacts on influent volumes of combined wastewater collection systems: A regional analysisResults in Engineering15100588:112Search in Google Scholar
SAIKIA S.D., RYAN P., NUYTS S., NOLAN P., CLIFFORD E. 2023. Impacts of projected future changes in precipitation on the WWTP influent volumes connected by combined sewer collection systems. https://papers.ssrn.com/sol3/papers.cfm?abstract_id=4459117 [Accessed: 20 December 2023].SAIKIAS.D.RYANP.NUYTSS.NOLANP.CLIFFORDE.2023Impacts of projected future changes in precipitation on the WWTP influent volumes connected by combined sewer collection systemshttps://papers.ssrn.com/sol3/papers.cfm?abstract_id=4459117 [Accessed: 20 December 2023].Search in Google Scholar
SEMADENI-DAVIES A. 2004. Urban water management vs. climate change: impacts on cold region waste water inflows. Climatic Change 64, 1–2: 103–126.SEMADENI-DAVIESA.2004Urban water management vs. climate change: impacts on cold region waste water inflowsClimatic Change641–2103126Search in Google Scholar
SOMOROWSKA U., ŁASZEWSKI M. 2019. Quantifying streamflow response to climate variability, wastewater inflow, and sprawling urbanization in a heavily modified river basin. Science of the Total Environment 656: 458–467.SOMOROWSKAU.ŁASZEWSKIM.2019Quantifying streamflow response to climate variability, wastewater inflow, and sprawling urbanization in a heavily modified river basinScience of the Total Environment656458467Search in Google Scholar
SONNENSCHEIN B., ZIEL F. 2023. Probabilistic intraday wastewater treatment plant inflow forecast utilizing rain forecast data and sewer network sensor data. Water Resources Research 59, 11: 1–21.SONNENSCHEINB.ZIELF.2023Probabilistic intraday wastewater treatment plant inflow forecast utilizing rain forecast data and sewer network sensor dataWater Resources Research5911121Search in Google Scholar
STAŃCZYK J., BURSZTA-ADAMIAK E., KAJEWSKA-SZKUDLAREK J., KURKIEWICZ R., PRZERWA A. 2023. Intelligent sewage discharge control in a wastewater treatment plant during rainfall periods. Urban Water Journal 20, 3: 380–393.STAŃCZYKJ.BURSZTA-ADAMIAKE.KAJEWSKA-SZKUDLAREKJ.KURKIEWICZR.PRZERWAA.2023Intelligent sewage discharge control in a wastewater treatment plant during rainfall periodsUrban Water Journal203380393Search in Google Scholar
THORNDAHL S., BALLING J.D., LARSEN U.B.B. 2016. Analysis and integrated modelling of groundwater infiltration to sewer networks. Hydrological Processes 30, 18: 3228–3238.THORNDAHLS.BALLINGJ.D.LARSENU.B.B.2016Analysis and integrated modelling of groundwater infiltration to sewer networksHydrological Processes301832283238Search in Google Scholar
VO P.T., NGO H.H., GUO W., ZHOU J.L., NGUYEN P.D., LISTOWSKI A., WANG X.C. 2014. A mini-review on the impacts of climate change on wastewater reclamation and reuse. Science of the Total Environment 494–495: 9–17.VOP.T.NGOH.H.GUOW.ZHOUJ.L.NGUYENP.D.LISTOWSKIA.WANGX.C.2014A mini-review on the impacts of climate change on wastewater reclamation and reuseScience of the Total Environment494–495:917Search in Google Scholar
WANG R., PAN Z., CHEN Y., TAN Z., ZHANG J. 2021. Influent quality and quantity prediction in wastewater treatment plant: Model construction and evaluation. Polish Journal of Environmental Studies 30, 5: 4267–4276.WANGR.PANZ.CHENY.TANZ.ZHANGJ.2021Influent quality and quantity prediction in wastewater treatment plant: Model construction and evaluationPolish Journal of Environmental Studies30542674276Search in Google Scholar
WĄSIK E., BUGAJSKI P., CHMIELOWSKI K., CUPAK A. 2016. Wpływ opadów atmosferycznych w Kotlinie Sądeckiej na zmienność ilościową ścieków dopływających do oczyszczalni Wielopole [The influence of atmospheric precipitation in the Sądecka Valley on the quantitative variability of sewage flowing into the Wielopole sewage treatment plant]. Infrastruktura i Ekologia Terenów Wiejskich [Infrastructure and Ecology of Rural Areas], II(2): 543–555.WĄSIKE.BUGAJSKIP.CHMIELOWSKIK.CUPAKA.2016Wpływ opadów atmosferycznych w Kotlinie Sądeckiej na zmienność ilościową ścieków dopływających do oczyszczalni Wielopole [The influence of atmospheric precipitation in the Sądecka Valley on the quantitative variability of sewage flowing into the Wielopole sewage treatment plant]Infrastruktura i Ekologia Terenów Wiejskich [Infrastructure and Ecology of Rural Areas]II2543555Search in Google Scholar
ZHANG M., LIU Y., DONG Q., HONG Y., HUANG X., SHI H., YUAN Z. 2018. Estimating rainfall-induced inflow and infiltration in a sanitary sewer system based on water quality modelling: which parameter to use? Environmental Science: Water Research & Technology 4, 3: 385–393.ZHANGM.LIUY.DONGQ.HONGY.HUANGX.SHIH.YUANZ.2018Estimating rainfall-induced inflow and infiltration in a sanitary sewer system based on water quality modelling: which parameter to use?Environmental Science: Water Research & Technology43385393Search in Google Scholar