[1] Okamura H., 1997, Self-compacting high-performance concrete. Concr Int Design Constr.
[2] Ozawa K., 1989, Development of high performance concrete based on the durability design of concrete structures. EASEC-2.
[3] Shi C et al., 2005, Design and application of self-compacting lightweight concrete, 1st international symposium on design, performance and use of self-consolidating concrete. RILEM Publications SARL.
[4] Sandrolini, F., Franzoni, E., 2001, Waste wash water recycling in ready-mixed concrete plants, Cement. Concrete. Research; 31(3): 485–489.
[5] Su, N., Miao, B., Liu, F., 2002, Effect of wash water and underground water on properties of concrete. Cement and Concrete Research; 32(3) 777–782.
[6] Mekki, H., Anderson, M., Ammar, E., Sherrat, G., Benzina, M., 2006, Mill wastewater as a replacement for fresh water in the manufacture of fried clay Olive oil bricks. Journal of Chemical Technology and Biotechnology;81(4): 1414-1419.
[7] Ismail, Z., Enas, A., Al-Hashmi A., 2010, Assessing the recycling potential of industrial wastewater to replace fresh water in concrete mixes: application of polyvinyl acetate resin wastewater: Journal of Cleaner Production; 19(3): 197-203.
[8] AL-JABRI, K.S., AL-SAIDY, A.H., TAHA R., and AL-KEMYANI, A.J., 2011, Effect of using Wastewater on the Properties of High Strength Concrete: Procedia Engineering; 14, k370–376.
[9] A. Khoshravesh; h. bahadori; A. Manafpour, 2014, The Effect of Using Sewage Sludge Ash with and without Nano Silica Particles on Properties of Self-Compacting Cement Based Materials, Volume 25, Issue 4, September and October 2014, Pages 66-75, Journal of water and wastewater
[10] Asadollahfardi, G., Asadi, M., Jafari, H., Moradi, A., Asadollahfardi, R., 2015 Experimental and statistical studies of using wash water from ready-mix concrete trucks and a batching plant in the production of fresh concrete: Construction and Building Materials; k98(3): 305–314.
[11] Rala, A., Kalla, P., Csetenyi, L.J., 2015. Sustainable use of marble slurry in concrete. J. Clean. Prod., j. jclepro; 94(2): 304-311.fficiency improvement of heat-resistant concrete through the use of sludge.
[12] Aamer Najim Abbas, Lubna M. Abd, Muhannd W. Majeed, 2019, Effect of Hospital Effluents and Sludge Wastewater on Foundations Produced from Different Types of Concrete, Civil Engineering Journal, Vol 5, No 4,
[13] Yahyaei B., Asadollahfardi Gh., Salehi A., 2020, Workability, mechanical, and durability properties of self‐compacting concrete using the treated wastewater; Structural Concrete.;1–12 ;DOI: 10.1002/suco.201900447
[14] EFNARC, 2005, Specification and guidelines for Self-Compacting Concrete, Association Hous.
[15] Faculty of Chemistry, University of Tabriz, 2017, Report of Tabriz Urban Water Survey.
[16] Faculty of Chemistry, University of Tabriz, 2017, Tabriz Urban Wastewater Survey Report.
[17] Saraposh Company, 2017, Material Specification Report, Manufacturer and Supplier of Concrete Admixtures and Building Chemicals.
[18] Abadgaran Company, 2017, Report of production materials specifications, design and production of advanced types of concrete engineering materials.
[19] ACI 211.1-91, 2002, Standard Practice for Selecting Propertions for Normal, Heavyweight and Mass Concrete, American Concrete Institute, Reapproved.
[20] ACI 318M-02: C, 2002, Building Code Requirements for Structural Concrete”, American Concrete Institute.