The Neutralization Treatment of Waste Mortar and Recycled Aggregate by Using the scCO2–Water-Aggregate Reaction

Taehyoung Kim; Jinkyun Lee; Chul-woo Chung; Jihyun Kim; Minhee Lee; Seon-ok Kim

doi:10.9719/EEG.2018.51.4.359

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Original Article

Econ. Environ. Geol. 2018; 51(4): 359-370

Published online August 31, 2018

https://doi.org/10.9719/EEG.2018.51.4.359

The Neutralization Treatment of Waste Mortar and Recycled Aggregate by Using the scCO₂–Water-Aggregate Reaction

Taehyoung Kim¹, Jinkyun Lee¹, Chul-woo Chung², Jihyun Kim², Minhee Lee^1* and Seon-ok Kim³

Author Info. +

¹Department of Earth Environmental Sciences, Pukyong National University, Busan 48513, Republic of Korea
²Department of Architectural Engineering, Pukyong National University, Busan 48513, Republic of Korea
³Department of Energy Resources Engineering, Pukyong National University, Busan 48513, Republic of Korea

Correspondence to : heelee@pknu.ac.kr

Received: August 6, 2018; Revised: August 16, 2018; Accepted: August 16, 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided original work is properly cited.

Abstract

The batch and column experiments were performed to overcome the limitation of the neutralization process using the scCO₂-water-recycled aggregate, reducing its treatment time to 3 hour. The waste cement mortar and two kinds of recycled aggregate were used for the experiment. In the extraction batch experiment, three different types of waste mortar were reacted with water and scCO₂ for 1 ~ 24 hour and the pH of extracted solution from the treated waste mortar was measured to determine the minimum reaction time maintaining below 9.8 of pH. The continuous column experiment was also performed to identify the pH reduction effect of the neutralization process for the massive recycled aggregate, considering the non-equilibrium reaction in the field. Thirty five gram of waste mortar was mixed with 70 mL of distilled water in a high pressurized stainless steel cell at 100 bar and 50 °C for 1 ~ 24 hour as the neutralization process. The dried waste mortar was mixed with water at 150 rpm for 10 min. and the pH of water was measured for 15 days. The XRD and TG/DTA analyses for the waste mortar before and after the reaction were performed to identify the mineralogical change during the neutralization process. The acryl column (16 cm in diameter, 1 m in length) was packed with 3 hour treated (or untreated) recycled aggregate and 220 liter of distilled water was flushed down into the column. The pH and Ca²⁺ concentration of the effluent from the column were measured at the certain time interval. The pH of extracted water from 3 hour treated waste mortar (10 ~ 13 mm in diameter) maintained below 9.8 (the legal limit). From XRD and TG/DTA analyses, the amount of portlandite in the waste mortar decreased after the neutralization process but the calcite was created as the secondary mineral. From the column experiment, the pH of the effluent from the column packed with 3 hour treated recycled aggregate kept below 9.8 regardless of their sizes, identifying that the recycled aggregate with 3 hour scCO₂ treatment can be reused in real construction sites.

Keywords recycled aggregate, scCO₂, waste mortar, pH neutralization, pH reduction, concrete recycling

초임계이산화탄소-물-골재 반응을 이용한 폐모르타르와 순환골재의 중성화 처리

김태형¹ ·이진균¹ ·정철우² ·김지현² ·이민희^1* ·김선옥³

¹부경대학교 지구환경과학과, ²부경대학교 건축공학과, ³부경대학교 에너지자원공학과

요 약

Article

Original Article

Econ. Environ. Geol. 2018; 51(4): 359-370

Published online August 31, 2018 https://doi.org/10.9719/EEG.2018.51.4.359