, NF EN 196-1. Methods of testing cement -Part 1: Determination of strength, AFNOR, 2016.

, NF EN 206/CN. Concrete -Specification, performance, production and conformity -811 National addition to the standard NF EN 206, AFNOR, 2014.

, NF P 18-513 Addition for concrete -Metakaolin -Specifications and conformity 813 criteria, AFNOR, 2012.

, NF EN 197-1. Cement -Part 1 : composition, specifications and conformity criteria for 815 common cements, AFNOR, 2012.

A. Ahmed, Y. Chaker, E. H. Belarbi, O. Abbas, J. N. Chotard et al., XRD and ATR/FTIR investigations of various montmorillonite clays 818 modified by monocationic and dicationic imidazolium ionic liquids, J. Mol. Struct, vol.1173, pp.653-819, 2018.

F. G. Aredes, T. M. Campos, J. P. Machado, K. K. Sakane, G. P. Thim et al., Effect 821 of cure temperature on the formation of metakaolinite-based geopolymer, Ceram. Int, vol.41, pp.7302-7311, 2015.

D. J. Batstone, J. Keller, I. Angelidaki, S. V. Kalyuzhnyi, S. G. Pavlostathis et al., , p.824

H. Siegrist and V. A. Vavilin, The IWA Anaerobic Digestion Model No 1 (ADM1), 2002.

, Technol, vol.45, pp.65-73

A. Bertron, J. Duchesne, and G. Escadeillas, Accelerated tests of hardened cement pastes 827 alteration by organic acids: analysis of the pH effect, Cem. Concr. Res, vol.35, pp.155-166, 2005.

A. Bertron, J. Duchesne, and G. Escadeillas, Attack of cement pastes exposed to organic acids in 830 manure, Cem. Concr. Compos, vol.27, pp.898-909, 2005.

A. Bertron, G. Escadeillas, P. De-parseval, and J. Duchesne, Processing of electron microprobe 833 data from the analysis of altered cementitious materials, Cem. Concr. Res, vol.39, pp.929-935, 2009.

A. Bertron, M. Peyre-lavigne, C. Patapy, and B. Erable, Biodeterioration of concrete in 836 agricultural, agro-food and biogas plants: state of the art and challenges, RILEM Tech. Lett, vol.2, pp.837-83, 2017.

M. I. Bhuiyan, D. S. Mavinic, and R. D. Beckie, A Solubility and Thermodynamic Study of Struvite, 2007.

, Environ. Technol, vol.28, pp.1015-1026

R. Braun, Anaerobic digestion: a multi-faceted process for energy, environmental 841 management and rural development, in: Improvement of Crop Plants for Industrial End Uses, 2007.

, , pp.335-416

M. Cerrillo, J. Palatsi, J. Comas, J. Vicens, and A. Bonmatí, Struvite precipitation as a technology 844 to be integrated in a manure anaerobic digestion treatment plant -removal efficiency, 845 crystal characterization and agricultural assessment, J. Chem. Technol. Biotechnol, vol.90, pp.1135-846, 2015.

K. Chae, M. Choi, K. Kim, F. F. Ajayi, I. Chang et al., Selective inhibition of 848 methanogens for the improvement of biohydrogen production in microbial electrolysis cells, 2010.

, Int. J. Hydrog. Energy, 3rd Asian Bio Hydrogen Symposium, vol.35, pp.13379-13386

R. Chandra, H. Takeuchi, and T. Hasegawa, Methane production from lignocellulosic agricultural 852 crop wastes: A review in context to second generation of biofuel production, Renew. Sustain. 853 Energy Rev, vol.16, pp.1462-1476, 2012.

J. Chen, S. Yun, J. Shi, Z. Wang, Y. Abbas et al., Role 855 of biomass-derived carbon-based composite accelerants in enhanced anaerobic digestion: 856 Focusing on biogas yield, fertilizer utilization, 2020.

, Bioresour. Technol, vol.307, 123204.

K. G. Cibis, A. Gneipel, and H. König, Isolation of acetic, propionic and butyric acid-forming 859 bacteria from biogas plants, J. Biotechnol, vol.220, pp.51-63, 2016.

. Cimbéton, Guide de prescription des ciments pour des constructions durables. Cas des bétons 862 coulés en place, Collection Technique CIMbéton, 2009.

B. Drug?, N. Ukrainczyk, K. Weise, E. Koenders, and S. Lackner, Interaction between wastewater 864 microorganisms and geopolymer or cementitious materials: Biofilm characterization and 865 deterioration characteristics of mortars, Int. Biodeterior. Biodegrad, vol.134, pp.58-67, 2018.

P. Duan, C. Yan, W. Zhou, W. Luo, and C. Shen, An investigation of the microstructure and 868 durability of a fluidized bed fly ash-metakaolin geopolymer after heat and acid exposure, 2015.

, Mater. Des, vol.74, pp.125-137

Y. Elakneswaran, E. Owaki, S. Miyahara, M. Ogino, T. Maruya et al., Hydration study of 871 slag-blended cement based on thermodynamic considerations, Constr. Build. Mater, vol.124, pp.615-625, 2016.

A. Escudero, F. Blanco, A. Lacalle, and M. Pinto, Struvite precipitation for ammonium removal 874 from anaerobically treated effluents, J. Environ. Chem. Eng, vol.3, pp.413-419, 2015.

G. M. Evans and J. C. Furlong, Environmental Biotechnology -Theory and Application, 2003.

P. Faucon, F. Adenot, J. F. Jacquinot, J. C. Petit, R. Cabrillac et al., Long-term behaviour 879 of cement pastes used for nuclear waste disposal: review of physico-chemical mechanisms of 880 water degradation, Cem. Concr. Res, vol.28, issue.98, pp.53-55, 1998.

H. Fehrenbach, J. Giegrich, G. Reinhardt, U. Sayer, M. Gretz et al., Kriterien 883 einer nachhaltigen Bioenergienutzung im globalen Ma\s sstab, UBA-Forschungsbericht, vol.206, pp.41-112, 2008.

H. Fisgativa, A. Tremier, and P. Dabert, Characterizing the variability of food waste quality: A need 886 for efficient valorisation through anaerobic digestion, Waste Manag, vol.50, pp.264-274, 2016.

H. Flemming, J. Wingender, U. Szewzyk, P. Steinberg, S. A. Rice et al., Biofilms: an 889 emergent form of bacterial life, Nat. Rev. Microbiol, vol.14, pp.563-575, 2016.

J. Frigon and S. R. Guiot, Biomethane production from starch and lignocellulosic crops: a 892 comparative review, Biofuels Bioprod. Biorefining, vol.4, pp.447-458, 2010.

M. Gautier, F. Muller, L. Le-forestier, J. Beny, and R. Guegan, NH4-smectite: Characterization, 895 hydration properties and hydro mechanical behaviour, Appl. Clay Sci, vol.49, pp.247-254, 2010.

A. Girou and H. Roques, Etude des cinétiques de précipitation des carbonates de calcium, 1971.

A. and G. Fr, , vol.48, pp.227-233

C. Grengg, N. Ukrainczyk, G. Koraimann, B. Mueller, M. Dietzel et al., Long-term in 900 situ performance of geopolymer, calcium aluminate and Portland cement-based materials 901 exposed to microbially induced acid corrosion, Cem. Concr. Res, vol.131, 2020.

E. Gruyaert, P. Van-den-heede, M. Maes, and N. De-belie, Investigation of the influence of blast-904 furnace slag on the resistance of concrete against organic acid or sulphate attack by means 905 of accelerated degradation tests, Cem. Concr. Res, vol.42, pp.173-185, 2012.

K. Hagos, J. Zong, D. Li, C. Liu, and X. Lu, Anaerobic co-digestion process for biogas production: 908 Progress, challenges and perspectives, Renew. Sustain. Energy Rev, vol.76, pp.1485-1496, 2017.

F. Han, S. Yun, C. Zhang, H. Xu, and Z. Wang, Steel slag as accelerant in anaerobic digestion for 911 nonhazardous treatment and digestate fertilizer utilization, Bioresour. Technol, vol.282, pp.331-912, 2019.

G. Han, S. G. Shin, J. Lee, C. Lee, M. Jo et al., Mesophilic Acidogenesis of Food Waste-914 Recycling Wastewater: Effects of Hydraulic Retention Time, pH, and Temperature, 2016.

, Biochem. Biotechnol, vol.180, pp.980-999

C. Holliger, M. Alves, D. Andrade, I. Angelidaki, S. Astals et al., , p.917

M. Carballa, V. De-wilde, F. Ebertseder, B. Fernández, E. Ficara et al., , p.918

H. F. Laclos, D. S. Ghasimi, G. Hack, M. Hartel, J. Heerenklage et al., , p.919

K. Koch, J. Krautwald, J. Lizasoain, J. Liu, L. Mosberger et al., , p.920

J. V. Paterson, M. Pauss, A. Pommier, S. Porqueddu, I. Raposo et al., Towards a standardization of biomethane potential tests, Water Sci. Technol, vol.922, pp.2515-2522, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01606690

J. B. Holm-nielsen, T. Seadi, and P. Oleskowicz-popiel, The future of anaerobic digestion and 925 biogas utilization, OECD Workshop: Livestock Waste Treatment Systems 926 of the Future: A Challenge to Environmental Quality, Food Safety, and Sustainability 100, pp.927-5478, 2009.

X. Huang, S. Yun, J. Zhu, T. Du, C. Zhang et al., Mesophilic anaerobic co-digestion of aloe 929 peel waste with dairy manure in the batch digester: Focusing on mixing ratios and digestate 930 stability, Bioresour. Technol, vol.218, pp.62-68, 2016.

M. Hunger, Multinuclear solid-state NMR studies of acidic and non-acidic hydroxyl protons in 932 zeolites, Solid State Nucl. Magn. Reson, vol.6, issue.95, p.1201, 1996.

W. P. Jacobs, J. W. De-haan, L. J. Van-de-ven, and R. A. Van-santen, Interaction of ammonia 935 with Broensted acid sites in different cages of zeolite Y as studied by proton MAS NMR, J, p.936, 1993.

, Phys. Chem, vol.97, pp.10394-10402

M. C. Juenger, R. Snellings, and S. A. Bernal, Supplementary cementitious materials: New 938 sources, characterization, and performance insights, Cem. Concr. Res, vol.122, pp.257-273, 2019.

H. A. Khan, A. Castel, and M. S. Khan, Corrosion investigation of fly ash based geopolymer 941 mortar in natural sewer environment and sulphuric acid solution, Corros. Sci. 108586, vol.942, 2020.

H. A. Khan, A. Castel, and M. S. Khan, Performance Evaluation of Geopolymer against In Situ 944, 2017.

, Aggressive Sewer Environment, 2017.

H. A. Khan, M. S. Khan, A. Castel, and J. Sunarho, Deterioration of alkali-activated mortars 947 exposed to natural aggressive sewer environment, Constr. Build. Mater, vol.186, pp.577-597, 2018.

J. Kim, C. Park, T. Kim, M. Lee, S. Kim et al., Effects of various pretreatments 950 for enhanced anaerobic digestion with waste activated sludge, J. Biosci. Bioeng, vol.95, pp.271-275, 2003.

M. Kim, C. Y. Gomec, Y. Ahn, and R. E. Speece, Hydrolysis and acidogenesis of particulate organic 953 material in mesophilic and thermophilic anaerobic digestion, Environ. Technol, vol.24, pp.1183-954, 2003.

A. Koenig and F. Dehn, Biogenic acid attack on concretes in biogas plants, Biosyst. Eng, vol.147, pp.226-956, 2016.

A. Koenig and F. Dehn, Acid Resistance of Ultra High-Performance Concrete (UHPC), Nanotechnology in Construction, p.959, 2015.

. Cham, , pp.317-323

R. Kothari, A. K. Pandey, S. Kumar, V. V. Tyagi, and S. K. Tyagi, Different aspects of dry anaerobic 961 digestion for bio-energy: An overview, Renew. Sustain. Energy Rev, vol.39, pp.174-195, 2014.

M. M. Kuypers, H. K. Marchant, and B. Kartal, The microbial nitrogen-cycling network, Nat. Rev, p.964, 2018.

. Microbiol, , vol.16, pp.263-276

G. Lastella, C. Testa, G. Cornacchia, M. Notornicola, F. Voltasio et al., Anaerobic 966 digestion of semi-solid organic waste: biogas production and its purification, 2002.

. Manag, , vol.43, pp.11-16

M. Lesteur, V. Bellon-maurel, C. Gonzalez, E. Latrille, J. M. Roger et al., 969 Alternative methods for determining anaerobic biodegradability: A review, Process Biochem. 970, vol.45, pp.431-440, 2010.

K. Li, R. Liu, and C. Sun, Comparison of anaerobic digestion characteristics and kinetics of four 972 livestock manures with different substrate concentrations, Bioresour. Technol, vol.198, pp.133-140, 2015.

A. Limoli, M. Langone, and G. Andreottola, Ammonia removal from raw manure digestate by 975 means of a turbulent mixing stripping process, J. Environ. Manage, vol.176, pp.1-10, 2016.

L. Lin, Z. Lei, L. Wang, X. Liu, Y. Zhang et al., Adsorption mechanisms 978 of high-levels of ammonium onto natural and NaCl-modified zeolites, Sep. Purif. Technol. 979, vol.103, pp.15-20, 2013.

C. Liu, X. Yuan, G. Zeng, W. Li, and J. Li, Prediction of methane yield at optimum pH for anaerobic 981 digestion of organic fraction of municipal solid waste, Bioresour. Technol, vol.99, pp.882-888, 2008.

B. Lothenbach, K. Scrivener, and R. D. Hooton, , 2011.

, Conferences Special: Cement Hydration Kinetics and Modeling, pp.1244-1256, 201041.

T. Luukkonen, M. Sarkkinen, K. Kemppainen, J. Rämö, and U. Lassi, Metakaolin geopolymer 988 characterization and application for ammonium removal from model solutions and landfill 989 leachate, Appl. Clay Sci, vol.119, pp.266-276, 2016.

C. Magniont, M. Coutand, A. Bertron, X. Cameleyre, C. Lafforgue et al., A new test method to assess the bacterial deterioration of cementitious materials, 2011.
URL : https://hal.archives-ouvertes.fr/hal-02165383

, Cem. Concr. Res, vol.41, pp.429-438

E. Marañón, M. Ulmanu, Y. Fernández, I. Anger, and L. Castrillón, Removal of ammonium from 994 aqueous solutions with volcanic tuff, J. Hazard. Mater, vol.137, pp.1402-1409, 2006.

P. L. Mccarty, Anaerobic Waste treatment Fundamentals. Public Works 95, p.66, 1964.

M. Mookherjee, M. D. Welch, L. L. Pollès, S. A. Redfern, and D. E. Harlov, Ammonium ion 998 behaviour in feldspar: variable-temperature infrared and 2H NMR studies of synthetic 999 buddingtonite, N(D,H)4AlSi3O8, Phys. Chem. Miner, vol.32, pp.126-131, 1000.

A. Morandeau, M. Thiéry, and P. Dangla, Investigation of the carbonation mechanism of CH and 1002 C-S-H in terms of kinetics, microstructure changes and moisture properties, Cem. Concr. Res. 1003, vol.56, pp.153-170, 2014.

N. Bachmann, E. S. Wellinger, and A. , 8 -Design and engineering of biogas plants, p.1005, 2013.

, The Biogas Handbook

, , pp.191-211

S. J. O'connor, K. J. Mackenzie, M. E. Smith, and J. V. Hanna, Ion exchange in the charge-1008 balancing sites of aluminosilicate inorganic polymers, J. Mater. Chem, vol.20, pp.10234-10240, 1009.

Ç. M. Oral and B. Ercan, Influence of pH on morphology, size and polymorph of room temperature 1011 synthesized calcium carbonate particles, Powder Technol, vol.339, pp.781-788, 2018.

O. Oueslati and J. Duchesne, The effect of SCMs and curing time on resistance of mortars 1014 subjected to organic acids, Cem. Concr. Res, vol.42, pp.205-214, 2012.

C. Perlot, J. Verdier, and M. Carcassès, Influence of cement type on transport properties and 1017 chemical degradation: application to nuclear waste storage, Mater. Struct, vol.39, pp.511-523, 2006.

R. Pouhet, Formulation and durability of metakaolin-based geopolymers (phd), 2015.

U. Toulouse, I. Toulouse, and . Sabatier,

R. Pouhet, M. Cyr, and R. Bucher, Influence of the initial water content in flash calcined 1021 metakaolin-based geopolymer, Constr. Build. Mater, vol.201, pp.421-429, 2019.

S. Rasi, Biogas composition and upgrading to biomethane (Jyväskylä studies in Biological and 1024 Environmental Science), 2009.

C. Roosz, P. Vieillard, P. Blanc, S. Gaboreau, H. Gailhanou et al., , p.1026

R. Denoyel, P. Henocq, B. Madé, C. , and M. , S-H phases: Results from direct measurements and predictive modelling, Appl. Geochem, vol.92, pp.140-156, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01898399

R. San-nicolas, M. Cyr, and G. Escadeillas, Characteristics and applications of flash metakaolins, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01850824

, Appl. Clay Sci, pp.253-262

K. Scrivener, R. Snellings, and B. Lothenbach, A Practical Guide to Microstructural Analysis of 1032 Cementitious Materials, 2016.

R. ?ev?ík, M. Pérez-estébanez, A. Viani, P. ?a?ek, and P. Mácová, Characterization of vaterite 1034 synthesized at various temperatures and stirring velocities without use of additives, 2015.

. Technol, , vol.284, pp.265-271

B. Singh, G. Ishwarya, M. Gupta, and S. K. Bhattacharyya, Geopolymer concrete: A review of some 1037 recent developments, Constr. Build. Mater, vol.85, pp.78-90, 2015.

R. Snellings, J. Chwast, Ö. Cizer, N. De-belie, Y. Dhandapani et al., , 1040.

D. Hooton, C. Patapy, M. Santhanam, K. Scrivener, D. Snoeck et al., , 1041.

A. Vollpracht, F. Winnefeld, and B. Lothenbach, RILEM TC-238 SCM recommendation on 1042 hydration stoppage by solvent exchange for the study of hydrate assemblages. Mater. Struct. 1043 51, p.172, 2018.

E. T. Stepkowska, J. L. Pérez-rodríguez, M. J. Sayagués, and J. M. Martínez-blanes, Calcite, vaterite 1045 and aragonite forming on cement hydration from liquid and gaseous phase, J. Therm. Anal, 2003.

. Calorim, , vol.73, pp.247-269

C. Y. Tai and F. Chen, Polymorphism of CaCO3, precipitated in a constant-composition 1048 environment, AIChE J, vol.44, pp.1790-1798, 1998.

, The European Parliament, The European Union Council, p.140, 2009.

, The European Parliament, The European Union Council, 2001.

C. Voegel, Impact biochimique des effluents agricoles et agroindustriels sur les 1052 structures/ouvrages en béton dans la filière de valorisation par méthanisation (ou digestion 1053 anaérobie), 1054.

C. Voegel, A. Bertron, and B. Erable, Mechanisms of cementitious material deterioration in biogas 1056 digester, Sci. Total Environ, vol.571, pp.892-901, 2016.

C. Voegel, A. Bertron, and B. Erable, Biodeterioration of cementitious materials in biogas digester, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01849735

. Matér and . Tech, , vol.103

C. Voegel, N. Durban, A. Bertron, Y. Landon, and B. Erable, Evaluation of microbial proliferation 1060 on cementitious materials exposed to biogas systems, Environ. Technol, pp.1-11, 2019.

C. Voegel, M. Giroudon, A. Bertron, C. Patapy, M. Peyre-lavigne et al., 1063 Cementitious materials in biogas systems: Biodeterioration mechanisms and kinetics in CEM I 1064 and CAC based materials, Cem. Concr. Res, vol.124, 1065.

H. Wang, H. Li, and F. Yan, Synthesis and mechanical properties of metakaolinite-based 1067 geopolymer, Colloids Surf. Physicochem. Eng. Asp, vol.268, pp.1-6, 2005.

P. Wang, H. Wang, Y. Qiu, L. Ren, and B. Jiang, Microbial characteristics in anaerobic digestion 1070 process of food waste for methane production-A review, Bioconversion 1071 of Food Wastes, vol.248, pp.29-36, 2018.

Q. Wang, Y. Yang, C. Yu, H. Huang, M. Kim et al., Study on a fixed zeolite 1073 bioreactor for anaerobic digestion of ammonium-rich swine wastes, Bioresour. Technol, vol.102, pp.1074-7064, 2011.

Z. Wang, S. Yun, H. Xu, C. Wang, Y. Zhang et al., Mesophilic anaerobic co-digestion 1076 of acorn slag waste with dairy manure in a batch digester: Focusing on mixing ratios and bio-1077 based carbon accelerants, Bioresour. Technol, vol.286, 1078.

P. Weiland, Biogas production: current state and perspectives, Appl. Microbiol. Biotechnol, vol.85, pp.1080-849, 2010.

K. Wianglor, S. Sinthupinyo, M. Piyaworapaiboon, and A. Chaipanich, Effect of alkali-activated 1082 metakaolin cement on compressive strength of mortars, Appl. Clay Sci, vol.141, pp.272-279, 1083.

J. L. Wray and F. Daniels, Precipitation of Calcite and Aragonite, J. Am. Chem. Soc, vol.79, pp.2031-2034, 1956.

H. Xu, Y. Li, D. Hua, H. Mu, Y. Zhao et al., Methane production from the anaerobic 1086 digestion of substrates from corn stover: Differences between the stem bark, stem pith, and 1087 leaves, Sci. Total Environ, vol.694, 2019.

H. Xu, S. Yun, C. Wang, Z. Wang, F. Han et al., Improving performance and 1089 phosphorus content of anaerobic co-digestion of dairy manure with aloe peel waste using 1090 vermiculite, Bioresour. Technol, vol.301, 1091.

S. Yariv, Study of the adsorption of organic molecules on clay minerals by differential thermal 1093 analysis, Thermochim. Acta, vol.88, pp.49-68, 1985.

O. Yenigün and B. Demirel, Ammonia inhibition in anaerobic digestion: A review, Process 1095 Biochem, vol.48, pp.901-911, 2013.

H. Yu and H. H. Fang, Acidogenesis of dairy wastewater at various pH levels, 2002.

, Technol, vol.45, pp.201-206

S. Yun, W. Fang, T. Du, X. Hu, X. Huang et al., Use of bio-based carbon 1099 materials for improving biogas yield and digestate stability, Energy, vol.164, pp.898-909, 1100.

S. Yun, C. Zhang, Y. Wang, J. Zhu, X. Huang et al., Synergistic effects of Fe 1102 salts and composite additives on anaerobic digestion of dairy manure, 2019.

. Biodegrad, , vol.136, pp.82-90

C. Zhang, S. Yun, X. Li, Z. Wang, H. Xu et al., Low-cost composited accelerants for anaerobic 1105 digestion of dairy manure: Focusing on methane yield, digestate utilization and energy 1106 evaluation, Bioresour. Technol, vol.263, pp.517-524, 2018.