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Laboratory tests and analysis of CIPP epoxy-resin internal liners used in pipelines – part I: comparison of tests and engineering calculations

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Języki publikacji
EN
Abstrakty
EN
Tests that were carried out in order to obtain knowledge of the actual values of strength parameters obtained by CIPP liners that are used to repair pipelines. Specimens of liners made of high quality polyester felt cured with epoxy resin were subjected to tests. The scope of the performed studies corresponded with the scope of acceptance tests, which are carried out in the investment process during quality control of renovation works. Specimens of liners taken from sewers with 3 different diameters, i.e. 200mm, 350mm and 500mm were selected as representative for underground sewage networks. The obtained results enabled the calculations carried out in the course of design work to be verified, and differences between the model values of the strength parameters obtained from the calculations, and real values that are burdened with irregularities resulting from the conditions prevailing at a construction site and which were obtained for specimens taken from their built-in locations to be compared. The tests confirmed that it is possible to renovate - using CIPP liners - sewers with a lot of structural and material damage that negatively affects a liner‘s geometry. The implementation of the reinforcing internal coating in a sewer enables its further safe operation. The direct application value of the research involves the enlargement and clarification of knowledge concerning the actual load-bearing capacity of CIPP liners.
Wydawca
Rocznik
Strony
169--180
Opis fizyczny
Bibliogr. 31 poz., rys.
Twórcy
autor
  • Wroclaw University of Science and Technology, Poland
Bibliografia
  • [1] Abd-Elhady A.A., Meroufel A., El-Din M Sallam H., Atta M., 2020. Experimental and numerical determination of critical osmotic blister size affecting the strength of aged FRP seawater pipe, Polymers and Polymer Composites, First Published, May 8.
  • [2] Elhady A., El-Din H., Sallam M., Malik R.A., 2020. Investigation of fatigue crack propagation in steel pipeline repaired by glass fiber reinforced polymer, Composite Structures, Vol. 242, 112189.
  • [3] Abd-Elhady A.A., Mubaraki M.A., M Sallam H.E., 2018. Progressive failure prediction of pinned joint in quasi-isotropic laminates used in pipelines, Lat. Am. Journal of Solid and Structures Vol. 15(6).
  • [4] Madryas C., Przybyła B., Wysocki L., 2010. Research and Evaluate the Technical Condition of Sewer Pipes. Dolnoslaskie Educational Publisher, Wroclaw.
  • [5] DWA-A 143-2: Sanierung von Entwässerungssystemen außerhalb von Gebäuden Teil 2: Statische Berechnung zur Sanierung von Abwasserleitungen und -kanälen mit Lining - und Montageverfahren, Lipiec 2015
  • [6] Matthews J. C., Selvakumar A., Condit W., 2012. Demonstration and evaluation of an innovative water main rehabilitation technology: Cured-in-Place Pipe (CIPP) lining, Water Practice & Technology Vol 7 No 2, IWA Publishing.
  • [7] Allouche E., Alam S., Sterling R., Condit W., Selvakumar A., 2011. Forensic investigation of a generation old cipp liners, North American Society for Trenchless Technology (NASTT), Paper D-5-04, No-Dig Show 2011, Washington
  • [8] Kuliczkowski A., 2010. Trenchless technologies in environmental engineering, Wydawnictwo Seidel-Przywecki Sp. z o.o.
  • [9] Kolonko A., Kujawski W., Przybyła B., Roszkowski A., Rybarski S., 2011. Basics of trenchless technical rehabilitation of water and sewage pipelines in urban areas, Izba Gospodarcza „Wodociągi Polskie”, Bydgoszcz.
  • [10] Madryas C., Kolonko A., 2010. Comments on CIPP liners, Inżynieria Bezwykopowa September - October 5, 2010 [35], Krakow.
  • [11] PN-EN ISO 11295:2018-02 - Classification and information on design and applications of plastics piping systems used for renovation and replacement
  • [12] PN-EN ISO 11296-1:2018-04 - Plastic piping systems for the renovation of underground non-pressure drainage and sewerage networks - Part 1: General provisions
  • [13] PN-EN ISO 11296-4:2018-03 - Plastic piping systems for the renovation of underground non-pressure drainage and sewerage networks — Part 4: Lining with cured-in-place pipes
  • [14] PN-EN ISO 11297-1:2018-05 - Plastic piping systems for the renovation of underground drainage and sewerage networks under pressure — Part 1: General provisions
  • [15] PN-EN ISO 11297-4:2018-03 - Plastic piping systems for the renovation of underground drainage and sewerage networks under pressure — Part 4: Lining with cured-in-place pipes
  • [16] Kolonko A., 2003. Polish experience in the renovation of sewer pipes using CIPP sleeves, Inżynieria Bezwykopowa - August, Krakow.
  • [17] PN-EN ISO 14125:2001 - Fibre-reinforced plastic composites — Determination of flexural properties
  • [18] PN-EN ISO 178:2019-06 - Plastics — Determination of flexural properties
  • [19] CIPP Liner Test Standard, IKT – Institute for Underground Infrastructure, Gelsenkirchen, 2009
  • [20] Allouche E. N., Bainbridge K., Moore I.D., 2005. Laboratory examination of a cured in place pressure pipe liner for a potable water distribution system, North American Society for Trenchless Technology (NASTT) NO-DIG 2005, Orlando.
  • [21] ASTM D790-17 Standard Test Methods for Flexural Properties of Unreinforced and Reinforced Plastics and Electrical Insulating Materials.
  • [22] ASTM D638 – 14 Standard Test Method for Tensile Properties of Plastics.
  • [23] Allouche E., Alam S., Simicevic J., Sterling R., Condit W., Matthews J., Selvakumar A., 2014. A pilot study for retrospective evaluation of cured-in-place pipe (CIPP) rehabilitation of municipal gravity sewers, Tunnelling and Underground Space Technology 39, 82–93.
  • [24] Abel T., 2015. Laboratory tests of pipelines reinforced with close-fit Trolining liner, Archives of Civil and Mechanical Engineering 15, 427 – 435.
  • [25] Kuliczkowski A., Mogielski K. Results of laboratory tests of concrete, vitrified clay and pvc sewer pipes with CIPP liners, Environment 23-34.
  • [26] Ra K., Teimouri Sendesi S.M., Nuruddin Md., Zyakyina N.N., Conkling E.N., Boor B.E., Jafvert Ch.T., Howarter J.A., Youngblood J.P., Whelton A.J., 2019. Considerations for emission monitoring and liner analysis of thermally manufactured sewer cured-in-place-pipes (CIPP), Journal of Hazardous Materials, 371, 540–549.
  • [27] Abel T., 2016. Changes in strength parameters of pipelines rehabilitated with close-fit Trolining liners – Numerical analysis based on laboratory tests, Archives of Civil and Mechanical Engineering 16, 30 – 40.
  • [28] Calibration Certificate, 2012. Universal Testing Machine model WDW-100, China.
  • [29] PN-EN ISO 3126:2006 Plastic piping systems - Plastic components - Checking dimensions
  • [30] GWT manual, 2000. Germann Instruments, Denmark.
  • [31] Glock, D., 1977. Überkritisches Verhalten eines starr ummantelten Kreisrohres bei Wasserdruck von außen und Temperaturerhöhung, Der Stahlbau 46.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-733664af-ffbd-484c-ad11-98659e575e8e
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