References
- [1] MILLER, S.A. - HORVATH, A. - MONTEIRO, P.J.M.: Impacts of booming concrete production on water resources worldwide. Nature Sustainability, Vol. 1, 2018, pp. 69-76.
- [2] FATTAH, K.P. - AL-TAMIMI, A.K. - HAMWEYAH, W. - IQBAL, F.: Evaluation of sustainable concrete produced with desalinated reject brine. International Journal of Sustainable Built Environment, Vol. 6, 2017, pp. 183-190.
- [3] ASTM C1602. 2012 Standard specification for mixing water used in the production of hydraulic cement concrete, ASTM International, West Conshohocken, PA, www.astm.org
- [4] BABU, G.R. - RAMANA, N.V.: Feasibility of wastewater as mixing water in cement. Materials Today, Proceedings, Vol. 5, 2018, pp. 1607-1614.
- [5] ISO 12439, 2010. Mixing water for concrete. International Organization for Standardization, Geneva, Switzerland (Last update: 2015).
- [6] MPO, 2004. Concrete code of Iran. Management and Planning Organization of Iran, Publication No. 120.
- [7] WEGIAN, F.M.: Effect of seawater for mixing and curing on structural concrete. The IES Journal Part A: Civil & Structural Engineering, Vol. 3 (4), 2010, pp. 235-243.
- [8] SHI, Z. - SHUI, Z. - LI, Q. - GENG, H.: Combined effect of metakaolin and sea water on performance and microstructures of concrete. Construction and Building Materials, Vol. 74, 2015, pp. 57-64.
- [9] MBADIKE, E.M. - ELINWA, A.U.: Effect of salt water in the production of concrete. Nigerian Journal of Technology, Vol. 30 (2), 2011, pp. 105-110.
- [10] AL-JOULANI, N.M.A.: Effect of wastewater type on concrete properties. International Journal of Applied Engineering Research, Vol. 10 (19), 2015, pp. 39865-39870.
- [11] EL-NAWAWY, O.A. - AHMAD, S.: Use of treated effluent in concrete mixing in an arid climate. Cement and Concrete Composites, Vol. 13, 1991, pp. 137-141.
- [12] KABOOSI, K. - KABOOSI, F. - FADAVI, M.: Investigation of greywater and zeolite usage in different cement contents on concrete compressive strength and their interactions. Ain Shams Engineering Journal, 2019, https://doi.org/10.1016/j.asej.2019.08.008.10.1016/j.asej.2019.08.008
- [13] MADANDOUST, R. - SOBHANI, J. - ASHOORI, P.: Concrete made with zeolite and metakaolin: a comparison on the strength and durability properties. Asian Journal of Civil Engineering (BHRC), Vol. 14 (4), 2013, pp. 533-543.
- [14] NAJIMI, M. - SOBHANI, J. - AHMADI, B. - SHEKARCHI, M.: An experimental study on durability properties of concrete containing zeolite as a highly reactive natural pozzolan. Construction and Building Materials, Vol. 35, 2012, pp.1023-1033.
- [15] VEJMELKOVÁ, E. - ONDRÁČEK, M. - ČERNÝ, R.: Mechanical and hydric properties of high performance concrete containing natural zeolites. International Journal of Materials and Metallurgical Engineering, Vol. 6 (3), 2012, pp. 186-189.
- [16] SOLTANI, A. - TARIGHAT, A. - ROSTAMI, R.: Effects of calcined clay minerals and silica fume on the compressive strength of concrete (In Persian). Journal of Structural and Construction Engineering, Vol. 4 (1), 2017, pp. 33-50.
- [17] RANJBAR, M. - MADANDOUST, R. - MOUSAVI, S.: Combined effect of silica fume and zeolite on the fresh and hardened properties of self-compacted concrete (In Persian). Concrete Research, Vol. 6 (1), 2013, pp. 53-71.
- [18] VALIPOUR, M. - PARGAR, F. - SHEKARCHI, M. - KHANI, S.: Comparing a natural pozzolan, zeolite, to metakaolin and silica fume in terms of their effect on the durability characteristics of concrete: A laboratory study. Construction and Building Materials, Vol. 41, 2013, pp. 879-888.
- [19] ESMAEILNIA OMRAN, M. - FARIDI, M.: Relationship between compressive strength and tensile strength, and modulus of elasticity in self-compacting concrete containing recycled aggregates and natural zeolite (In Persian). Concrete Research, Vol. 7 (1), 2015, pp. 7-22.
- [20] [20] TRAN, Y.T. – LEE, J. – KUMAR, P. - KIM, K.H. – LEE, S.S.: Natural zeolite and its application in concrete composite production. Composites Part B, Vol. 165, 2019, pp. 354–364.
- [21] VALIPOUR, M. - YEKKALAR, M. - SHEKARCHI, M. - PANAHI, S.: Environmental assessment of green concrete containing natural zeolite on the global warming index in marine environments. Journal of Cleaner Production, Vol. 65, 2014, pp. 418-423.
- [22] SABET, F.A. - LIBRE, N.A. - SHEKARCHI, M.: Mechanical and durability properties of self-consolidating high performance concrete incorporating natural zeolite, silica fume and fly ash. Construction and Building Materials, Vol. 44, 2013, pp. 175-184.
- [23] AHMADI, J. - AZIZI, H. - KOOHI, M.: Effect of zeolite on the strength and permeability of conventional concrete with different content of cement. Concrete Research, 8(2), 2016, p. 5-18.
- [24] KHOSHROO, M. - SHIRZADI JAVID, A.A. - KATEBI, A.: Effects of micro-nano bubble water and binary mineral admixtures on the mechanical and durability properties of concrete. Construction and Building Materials, Vol. 164, 2018, pp. 371-385.
- [25] KABOOSI, K. - EMAMI, Kh.: Interaction of treated industrial wastewater and zeolite on compressive strength of plain concrete in different cement contents and curing ages. Case Studies in Construction Materials (accepted paper, under publishing), 2019.
- [26] VEJMELKOVÁ, E. - KOŇÁKOVÁ, D. - KULOVANÁ, T. - KEPPERT, M. - ŽUMÁR, J. -ROVNANÍKOVÁ, P. - KERŠNER, Z. - SEDLMAJER, M. - ČERNÝ, R.: Engineering properties of concrete containing natural zeolite as supplementary cementitious material. Strength, toughness, durability, and hygrothermal performance. Cement and Concrete Composites, Vol. 55, 2015, pp. 259-267.
- [27] IBM Corp. 2016. IBM SPSS Statistics for Windows, Version 22.0. Armonk, NY: IBM Corp. (Released 2016).
- [28] APHA. 2012 Standard methods for examination of water and wastewater. American Public Health Association, 18th Edition, Washington DC.
- [29] BS EN1008, 2002. Mixing water for concrete: Specification for sampling, testing and assessing the suitability of water, including water recovered from processes in the concrete industry, as mixing water for concrete. British Standard Institution, www.bsigroup.com.
- [30] ASTM C618-19, 2019. Standard Specification for Coal Fly Ash and Raw or Calcined Natural Pozzolan for Use in Concrete. ASTM International, West Conshohocken, PA, www.astm.org.
- [31] ASTM C136 / C136M-14, 2014. Standard Test Method for Sieve Analysis of Fine and Coarse Aggregates, ASTM International, West Conshohocken, PA, www.astm.org.
- [32] ASTM C33 / C33M-13, 2013. Standard Specification for Concrete Aggregates, ASTM International, West Conshohocken, PA, www.astm.org.
- [33] ASTM C192 / C192M-14, 2014. Standard Practice for Making and Curing Concrete Test Specimens in the Laboratory, ASTM International, West Conshohocken, PA, 2014, www.astm.org.
- [34] ISO 1920-1, 2004. Testing of concrete- part 1: Sampling of fresh concrete. International Organization for Standardization, Geneva, Switzerland.
- [35] ISO 1920-4, 2005. Testing of concrete- Part 4: Strength of hardened concrete. International Organization for Standardization, Geneva, Switzerland.
- [36] ALQAM, M. - JAMRAH, A. - AL-HAFITH, B.A. - AL-ZUBI, R. - AL-SHAMARI, N.: Fresh and hardened properties of sustainable concrete using recycled household greywater. Arabian Journal for Science and Engineering, Vol. 39, 2014, pp. 1701-1708.
- [37] EPA, 2012. Guidelines for water reuse. EPA/600/R-12/618, United State Environmental Protection Agency, Washington, D.C.
- [38] MEHRDADI, N. - AKBARIAN, A. - HAGH ELAHI, A.: Using treated domestic wastewater in concrete mixing (In Persian). Journal of Environmental Studies, 35(50), 2009, p. 129-136.
- [39] BABU, G.R. - REDDY, B.M. - RAMANA, N.V.: Quality of mixing water in cement concrete. A review. Materials Today, Proceedings, Vol. 5, 2018, pp. 1313-1320.