Cyrill Grengg scite author profile

In this study, a strongly deteriorated concrete-based sewer system was investigated by using a multi proxy approach based on gaseous, hydro-geochemical, microbiological, mineralogical and mechanical analyses. Therefore, gas, liquid, and solid samples were taken throughout the entire sewer system. Long term measurements of gaseous hydrogen sulfide (H 2 S) within the sewer atmosphere yielded concentrations up to 367 ppm. Interstitial fluids, extracted from deteriorated concrete by squeezing, contained sulfate (SO 4 2− ) concentrations of up to 104 g l −1 at strong acidic conditions (0.7 N pH N 3.1) and are close to the saturation state of gypsum. This sulfuric acid attack is indicative for a well-established biofilm containing sulfide oxidizing bacteria (SOB), which was analyzed to consist mainly of Acidithiobacillus thiooxidans. The micro-structure of the attacked concrete displays a progressing alteration zone, which is caused by microbially induced concrete corrosion (MICC), with a suggested pH gradient from about 13 to b 1, from the intact inner concrete zone to the outermost heavily deteriorated concrete. Calcium sulfate minerals such as gypsum (CaSO 4 · 2H 2 O), bassanite (CaSO 4 · 1/2H 2 O) and anhydrite (CaSO 4 ) are abundant in the altered concrete, which were formed from the dissolution of the cement phases and Ca-bearing aggregates. Remarkably high corrosion rates of different precast concrete manholes were quantified to reach values greater than 1 cm yr −1 , despite the fact that C 3 A-free cement, fly ash and a w/c of~0.35 was used.

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The decisive role of acidophilic bacteria in concrete sewer networks: A new model for fast progressing microbial concrete corrosion

Grengg

Mittermayr

Koraimann

et al. 2017

Cement and Concrete Research

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High-resolution optical pH imaging of concrete exposed to chemically corrosive environments

Grengg

Müller

Staudinger

et al. 2019

Cement and Concrete Research

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Cyrill Grengg

Advances in concrete materials for sewer systems affected by microbial induced concrete corrosion: A review

Barium partitioning in calcite and aragonite as a function of growth rate

Microbiologically induced concrete corrosion: A case study from a combined sewer network

The decisive role of acidophilic bacteria in concrete sewer networks: A new model for fast progressing microbial concrete corrosion

High-resolution optical pH imaging of concrete exposed to chemically corrosive environments

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