Journal of the Chinese Ceramic Society, Volume. 53, Issue 2, 325(2025)

Mechanism Investigation and Difference in Carbon Sequestration Rates of Granular γ-C2S, β-C2S and C3S Minerals

XU Yangfan1...2, QIAN Chunxiang1,2,*, and PEI Jiawei12 |Show fewer author(s)
Author Affiliations
  • 1School of Materials Science and Engineering, Southeast University, Nanjing 211189, China
  • 2Research Center for Green Construction Materials & Carbon Utilization, Southeast University, Nanjing 211189, China
  • show less
    References(30)

    [1] [1] GAO W H, ZHOU W T, LYU X J, et al. Comprehensive utilization of steel slag: A review[J]. Powder Technol, 2023, 422: 118449.

    [2] [2] ZHANG J Y, YU X F, DING S S, et al. Lignite-steel slag constructed wetland with multi-functionality and effluent reuse[J]. J Environ Manage, 2024, 353: 120183.

    [3] [3] ZHANG Q, YU X Y, YANG Y Q, et al. Enhanced ammonia removal in tidal flow constructed wetland by incorporating steel slag: Performance, microbial community, and heavy metal release[J]. Sci Total Environ, 2024, 922: 171333.

    [4] [4] RUI Y F, QIAN C X, ZHANG X, et al. Different carbon treatments for steel slag powder and their subsequent effects on properties of cement-based materials[J]. J Clean Prod, 2022, 362: 132407.

    [5] [5] RUI Y F, QIAN C X. CO2-fixing steel slag on hydration characteristics of cement-based materials[J]. Constr Build Mater, 2022, 354: 129193.

    [6] [6] ZHANG X, QIAN C X, MA Z Y, et al. Study on preparation of supplementary cementitious material using microbial CO2 fixation of steel slag powder[J]. Constr Build Mater, 2022, 326: 126864.

    [7] [7] DHANDAPANI Y, SANTHANAM M, KALADHARAN G, et al. Towards ternary binders involving limestone additions—A review[J]. Cem Concr Res, 2021, 143: 106396.

    [8] [8] CHO S, SUH H, IM S, et al. Characteristic microstructural phase evolution and the compressive strength development mechanisms of tricalcium silicate pastes under various initial carbonation curing environments[J]. Constr Build Mater, 2023, 409: 133866.

    [9] [9] RAMEZANIANPOUR A A, GHIASVAND E, NICKSERESHT I, et al. Influence of various amounts of limestone powder on performance of Portland limestone cement concretes[J]. Cem Concr Compos, 2009, 31(10): 715–720.

    [10] [10] ZHAO S X, LIU Z C, WANG F Z. Carbonation reactivity enhancement of -C2S through biomineralization[J]. J CO2 Util, 2020, 39: 101183.

    [11] [11] MU Y D, LIU Z C, WANG F Z, et al. Carbonation characteristics of -dicalcium silicate for low-carbon building material[J]. Constr Build Mater, 2018, 177: 322–331.

    [12] [12] WANG D, XIONG C, LI W Z, et al. Growth of calcium carbonate induced by accelerated carbonation of tricalcium silicate[J]. ACS Sustain Chem Eng, 2020, 8(39): 14718–14731.

    [13] [13] MEI K Y, CHENG X W, ZHANG H, et al. The coupled reaction and crystal growth mechanism of tricalcium silicate (C3S): An experimental study for carbon dioxide geo-sequestration wells[J]. Constr Build Mater, 2018, 187: 1286–1294.

    [14] [14] WANG D, CHANG J. Comparison on accelerated carbonation of -C2S, Ca(OH)2, and C4AF: Reaction degree, multi-properties, and products[J]. Constr Build Mater, 2019, 224: 336–347.

    [15] [15] WANG D, FANG Y F, ZHANG Y Y, et al. Changes in mineral composition, growth of calcite crystal, and promotion of physico-chemical properties induced by carbonation of -C2S[J]. J CO2 Util, 2019, 34: 149–162.

    [16] [16] JIANG T, CUI K, CHANG J. Development of low-carbon cement: Carbonation of compounded C2S by -C2S and -C2S[J]. Cem Concr Compos, 2023, 139: 105071.

    [17] [17] CHANG J, FANG Y F, SHANG X P. The role of -C2S and -C2S in carbon capture and strength development[J]. Mater Struct, 2016; 49(10): 4417–4424.

    [18] [18] CHEN T F, XU P, GAO X J, et al. New sights in early carbonation of calcium silicates: Performance, mechanism and nanostructure[J]. Constr Bild Mater, 2022, 314(7):125622.

    [19] [19] ASHRAF W, OLEK J. Elucidating the accelerated carbonation products of calcium silicates using multi-technique approach[J]. J CO2 Util, 2018, 23: 61–74.

    [20] [20] MU Y D, LIU Z C, WANG F Z. Comparative study on the carbonation-activated calcium silicates as sustainable binders: Reactivity, mechanical performance, and microstructure[J]. ACS Sustainable Chem Eng, 2019, 7(7): 7058–7070.

    [21] [21] ZHAO D Q, WILLIAMS J M, LI Z Z, et al. Hydration of cement pastes with calcium carbonate polymorphs[J]. Concr Cem Res, 2023, 173: 107270.

    [22] [22] ZHAO M C, LU L N, TAO Y, et al. Adsorption behavior of carbonic acid on -dicalcium silicate surface from molecular simulations[J]. J Am Ceram Soc, 2022, 105(1): 564–576.

    [23] [23] ZHAO M C, RAO M J, WANG F Z, et al. Density functional simulation of adsorption behavior within the dicalcium silicate- accelerated carbonation system[J]. ACS Sustain Chem Eng, 2022, 10(50): 16825–16832.

    [25] [25] ZAJAC M, SKIBSTED J, LOTHENBACH B, et al. Effect of sulfate on CO2 binding efficiency of recycled alkaline materials[J]. Cem Concr Res, 2022, 157: 106804.

    [26] [26] Chang EE, Pan SY, Chen YH, et al. Accelerated carbonation of steelmaking slags in a high-gravity rotating packed bed[J], J Hazard Mater, 2012, 227: 97–106.

    [27] [27] Vianey GBB, Eli GBO, Guillermina F.F, et al, Multimeric System of RGD-Grafted PMMA-Nanoparticles as a Targeted Drug-Delivery System for Paclitaxel[J]. Curr Pharm Design 2017, 23: 3415–3422.

    [29] [29] CHENG B, LEI M, YU J G, et al. Preparation of monodispersed cubic calcium carbonate particles via precipitation reaction[J]. Mater Lett, 2004, 58(10): 1565–1570.

    [30] [30] HE P P, DRISSI S, HU X, et al. Investigation on the influential mechanism of FA and GGBS on the properties of CO2-cured cement paste[J]. Cem Concr Compos, 2023, 142: 105186.

    [31] [31] BERGER A, EBERT A, RAMSEYER K, et al. Dolomite microstructures between 390° and 700℃: Indications for deformation mechanisms and grain size evolution[J]. J Struct Geol, 2016, 89: 144–152.

    [32] [32] AUSTIN N, EVANS B. The kinetics of microstructural evolution during deformation of calcite[J]. J Geophys Res, 2009, 114(B9): 006138.

    Tools

    Get Citation

    Copy Citation Text

    XU Yangfan, QIAN Chunxiang, PEI Jiawei. Mechanism Investigation and Difference in Carbon Sequestration Rates of Granular γ-C2S, β-C2S and C3S Minerals[J]. Journal of the Chinese Ceramic Society, 2025, 53(2): 325

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Save article for my favorites
    Paper Information

    Category:

    Received: Apr. 8, 2024

    Accepted: Feb. 20, 2025

    Published Online: Feb. 20, 2025

    The Author Email: Chunxiang QIAN (cxqianseu1@163.com)

    DOI:10.14062/j.issn.0454-5648.20240269

    Topics