Y. Al-degs, M. A. Khraisheh, S. J. Allen, and M. N. Ahmad, Effect of carbon surface chemistry on the 453 removal of reactive dyes from textile effluent, Water Res, vol.34, pp.927-935, 2000.

, , pp.200-206

J. Altmann, L. Massa, A. Sperlich, R. Gnirss, and M. Jekel, UV254 absorbance as real-time monitoring 456 and control parameter for micropollutant removal in advanced wastewater treatment with powdered 457 activated carbon, Water Res, vol.94, pp.240-245, 2016.

T. C. Alves, A. Cabrera-codony, D. Barceló, S. Rodriguez-mozaz, A. Pinheiro et al., 459 Influencing factors on the removal of pharmaceuticals from water with micro-grain activated carbon, 2018.

, Water Res

T. Anumol, M. Sgroi, M. Park, P. Roccaro, and S. A. Snyder, Predicting trace organic compound 462 breakthrough in granular activated carbon using fluorescence and UV absorbance as surrogates, Water 463 Res, vol.76, pp.76-87, 2015.

L. Aristilde and G. Sposito, Complexes of the antimicrobial ciprofloxacin with soil, peat, and aquatic 465 humic substances: Adsorption of ciprofloxacin on humic substances, Environ. Toxicol. Chem, 2013.

G. Aschermann, L. Neubert, F. Zietzschmann, and M. Jekel, Impact of different DOM size fractions on 468 the desorption of organic micropollutants from activated carbon, Water Res. S0043135419304245, vol.469, 2019.

M. M. Bello, A. A. Abdul-raman, and M. Purushothaman, Applications of fluidized bed reactors in 471 wastewater treatment -A review of the major design and operational parameters, J. Clean. Prod, vol.141, pp.1492-1514, 2017.

C. Bellona, J. E. Drewes, P. Xu, and G. Amy, Factors affecting the rejection of organic solutes during 474 NF/RO treatment-a literature review, Water Res, vol.38, pp.2795-2809, 2004.

,

F. Benstoem, A. Nahrstedt, M. Boehler, G. Knopp, D. Montag et al., 477 Performance of granular activated carbon to remove micropollutants from municipal wastewater-A 478 meta-analysis of pilot-and large-scale studies, Chemosphere, vol.185, pp.105-118, 2017.

,

F. Benstoem and J. Pinnekamp, Characteristic numbers of granular activated carbon for the elimination of 481 micropollutants from effluents of municipal wastewater treatment plants, Water Sci. Technol, vol.76, pp.279-285, 2017.

X. T. Bui, T. P. Vo, H. H. Ngo, W. S. Guo, and T. T. Nguyen, Multicriteria assessment of advanced 484 treatment technologies for micropollutants removal at large-scale applications, Sci. Total Environ, vol.485, pp.1050-1067, 2016.

J. Choubert, S. Martin-ruel, C. Miege, and M. Coquery, Rethinking micropollutant removal 487 assessment methods for wastewater treatment plants -how to get more robust data?, 2017.

. Technol, , vol.75, pp.2964-2972

L. F. Delgado, P. Charles, K. Glucina, and C. Morlay, Adsorption of Ibuprofen and Atenolol at Trace 490 Concentration on Activated Carbon, Sep. Sci. Technol, vol.50, pp.1487-1496, 2014.

,

L. F. Delgado, P. Charles, K. Glucina, and C. Morlay, The removal of endocrine disrupting compounds, 493 pharmaceutically activated compounds and cyanobacterial toxins during drinking water preparation 494 using activated carbon-A review, Sci. Total Environ, pp.509-525, 2012.

,

F. Harrel, Hmisc: Harrell Miscellaneous, 2017.

M. Ek, C. Baresel, J. Magnér, R. Bergström, and M. Harding, Activated carbon for the removal of 498 pharmaceutical residues from treated wastewater, Water Sci. Technol, vol.69, 2014.

S. Ergun and A. A. Orning, Fluid Flow through Randomly Packed Columns and Fluidized Beds, Ind. Eng, 1949.

, Chem, vol.41, pp.1179-1184

R. Guillossou, J. Le-roux, R. Mailler, E. Vulliet, C. Morlay et al., 503 Organic micropollutants in a large wastewater treatment plant: What are the benefits of an advanced 504 treatment by activated carbon adsorption in comparison to conventional treatment?, Chemosphere, vol.218, pp.505-1050, 2019.

X. Han, E. Wishart, and Y. Zheng, A comparison of three methods to regenerate activated carbon saturated 507 by diesel fuels, Can. J. Chem. Eng, vol.92, pp.884-891, 2014.

C. Hsieh and H. Teng, Influence of mesopore volume and adsorbate size on adsorption capacities of 509 activated carbons in aqueous solutions, Carbon, vol.38, issue.99, pp.180-183, 2000.

T. Karanfil, J. E. Kilduff, M. A. Schlautman, and W. J. Weber, Adsorption of Organic Macromolecules by 512, 1996.

, Granular Activated Carbon. 1. Influence of Molecular Properties Under Anoxic Solution Conditions

, Environ. Sci. Technol, vol.30, pp.2187-2194

L. Li, P. A. Quinlivan, and D. R. Knappe, Effects of activated carbon surface chemistry and pore structure 515 on the adsorption of organic contaminants from aqueous solution, Carbon, vol.40, pp.2085-2100, 2002.

, , pp.69-75

Q. Li, V. L. Snoeyink, B. J. Mariñas, and C. Campos, Pore blockage effect of NOM on atrazine adsorption 518 kinetics of PAC: the roles of PAC pore size distribution and NOM molecular weight, Water Res, vol.37, pp.4863-4872, 2003.

F. Liu, J. Zhao, S. Wang, P. Du, and B. Xing, Effects of Solution Chemistry on Adsorption of Selected 521 Pharmaceuticals and Personal Care Products (PPCPs) by Graphenes and Carbon Nanotubes, 2014.

, Sci. Technol, vol.48, pp.13197-13206

M. G. Lussier, J. C. Shull, and D. J. Miller, Activated carbon from cherry stones, Carbon, vol.32, pp.1493-1498, 1994.

O. P. Mahajan, C. Moreno-castilla, and P. Walker, Surface-treated activated carbon for removal of 525 phenol from water, Sep. Sci. Technol, vol.15, pp.1733-1752, 1980.

R. Mailler, J. Gasperi, Y. Coquet, A. Buleté, E. Vulliet et al., Removal of a wide range 528 of emerging pollutants from wastewater treatment plant discharges by micro-grain activated carbon 529 in fluidized bed as tertiary treatment at large pilot scale, Part A, vol.542, pp.983-996, 2016.

R. Mailler, J. Gasperi, Y. Coquet, C. Derome, A. Buleté et al., , p.532

V. Rocher, Removal of emerging micropollutants from wastewater by activated carbon 533 adsorption: Experimental study of different activated carbons and factors influencing the adsorption 534 of micropollutants in wastewater, J. Environ. Chem. Eng, vol.4, pp.1102-1109, 2016.

R. Mailler, J. Gasperi, Y. Coquet, S. Deshayes, S. Zedek et al., , p.537

A. Caupos, E. Moilleron, R. Chebbo, G. Rocher, and V. , Study of a large scale powdered activated 538 carbon pilot: Removals of a wide range of emerging and priority micropollutants from wastewater 539 treatment plant effluents, Water Res, vol.72, pp.315-330, 2015.

J. Margot, C. Kienle, A. Magnet, M. Weil, L. Rossi et al., , p.541

N. Chèvre, M. Schärer, and D. A. Barry, Treatment of micropollutants in municipal wastewater: 542 Ozone or powdered activated carbon?, Sci. Total Environ, pp.480-498, 2013.

,

I. N. Najm, V. L. Snoeyink, and Y. Richard, Effect of Initial Concentration of a SOC in Natural Water on 545 Its Adsorption by Activated Carbon, J. -Am. Water Works Assoc, vol.83, pp.57-63, 1991.

,

G. Newcombe, Activated Carbon and Soluble Humic Substances: Adsorption, Desorption, and Surface 548 Charge Effects, J. Colloid Interface Sci, vol.164, pp.452-462, 1994.

G. Newcombe, J. Morrison, and C. Hepplewhite, Simultaneous adsorption of MIB and NOM onto 550 activated carbon. I. Characterisation of the system and NOM adsorption, Carbon, vol.40, pp.2135-2146, 2002.

G. Newcombe, J. Morrison, C. Hepplewhite, and D. R. Knappe, Simultaneous adsorption of MIB and 553 NOM onto activated carbon II. Competitive effects, Carbon, vol.40, pp.2147-2156, 2002.

L. Paredes, E. Fernandez-fontaina, J. M. Lema, F. Omil, and M. Carballa, Understanding the fate of 555 organic micropollutants in sand and granular activated carbon biofiltration systems. Sci. Total 556 Environ, pp.640-648, 2016.

P. A. Quinlivan, L. Li, and D. R. Knappe, Effects of activated carbon characteristics on the simultaneous 558 adsorption of aqueous organic micropollutants and natural organic matter, Water Res, vol.39, pp.1663-1673, 2005.

. R-core-team, R: A language and environment for statistical computing. R Foundation for Statistical 561 Computing, 2007.

M. Rafatullah, O. Sulaiman, R. Hashim, and A. Ahmad, Adsorption of methylene blue on low-cost 563 adsorbents: A review, J. Hazard. Mater, vol.177, pp.70-80, 2010.

F. Raposo, M. A. De-la-rubia, and R. Borja, Methylene blue number as useful indicator to evaluate the 565 adsorptive capacity of granular activated carbon in batch mode: Influence of adsorbate/adsorbent mass 566 ratio and particle size, J. Hazard. Mater, vol.165, pp.291-299, 2009.

B. Shi, L. Fang, Z. Li, and D. Wang, Adsorption Behavior of DOM by PACs with Different Particle Sizes, CLEAN -Soil Air Water, vol.568, pp.1363-1369, 2014.

J. Streicher, A. S. Ruhl, R. Gnirß, and M. Jekel, Where to dose powdered activated carbon in a wastewater 570 treatment plant for organic micro-pollutant removal, Chemosphere, vol.156, pp.88-94, 2016.

,

H. N. Tran, Y. Wang, S. You, and H. Chao, Insights into the mechanism of cationic dye adsorption 573 on activated charcoal: The importance of ?-? interactions, Process Saf. Environ. Prot, vol.107, pp.168-180, 2017.

E. Vulliet, C. Cren-olivé, and M. Grenier-loustalot, Occurrence of pharmaceuticals and hormones in 576 drinking water treated from surface waters, Environ. Chem. Lett, vol.9, pp.103-114, 2011.

S. Wang, Z. H. Zhu, A. Coomes, F. Haghseresht, and G. Q. Lu, The physical and surface chemical 579 characteristics of activated carbons and the adsorption of methylene blue from wastewater, J. Colloid 580 Interface Sci, vol.284, pp.440-446, 2005.

J. Yu, L. Lv, P. Lan, S. Zhang, B. Pan et al., Effect of effluent organic matter on the adsorption 582 of perfluorinated compounds onto activated carbon, J. Hazard. Mater, vol.225, pp.99-106, 2012.

,

Z. Yu, S. Peldszus, and P. M. Huck, Adsorption characteristics of selected pharmaceuticals and an 585 endocrine disrupting compound-Naproxen, carbamazepine and nonylphenol-on activated carbon, 2008.

, Water Res, vol.42, pp.2873-2882

F. Zietzschmann, J. Altmann, A. S. Ruhl, U. Dünnbier, I. Dommisch et al., Estimating organic micro-pollutant removal potential of activated carbons using UV absorption 589 and carbon characteristics, Water Res, vol.588, pp.48-55, 2014.

A. D. Ziska, M. Park, T. Anumol, and S. A. Snyder, Predicting trace organic compound attenuation with 591 spectroscopic parameters in powdered activated carbon processes, Chemosphere, vol.156, pp.163-171, 2016.