Research Review of Biomass Ash as Concrete Admixture

Authors

MA Bicong, Guangxi Road and Bridge Engineering Group Co ., Ltd., Nanning , Guangxi 530200 ,ChinaFollow
LIANG Jian, Guangxi Road and Bridge Engineering Group Co ., Ltd., Nanning , Guangxi 530200 ,ChinaFollow
WENG Yiling, Guangxi Road and Bridge Engineering Group Co ., Ltd., Nanning , Guangxi 530200 ,China

Corresponding Author

梁健，男，助理工程师.E-mail：598214816@qq.com

Abstract

In order to provide a comprehensive overview of research progress in the use of biomass ash as concrete admixture，the physical and chemical properties，mechanism of action，factors affecting the production process of biomass ash，and the effects of biomass ash incorporation on the working properties，mechanical properties，and durability of concrete were studied.The results show that biomass ash has a smaller density and a larger specific surface area than traditional mineral admixture，and the total amount of active components，namely SiO2 + Al2O3 + Fe2O3 （SAF） in most biomass ashes exceeds the requirements of class F volcanic ash （≥70%）.Incorporating biomass ash can effectively improve the mechanical properties and durability of concrete，but it may have a negative impact on the flowability and anti-carbonization performance of concrete.Moreover，the performance of biomass ash is greatly influenced by production processes such as combustion and grinding.To make biomass ash widely used in large-scale engineering in the future，it is necessary to optimize the production process of biomass ash.

Publication Date

10-28-2024

DOI

10.14048/j.issn.1671-2579.2024.05.010

First Page

97

Last Page

107

Submission Date

February 2025

Recommended Citation

Bicong, MA; Jian, LIANG; and Yiling, WENG (2024) "Research Review of Biomass Ash as Concrete Admixture," Journal of China & Foreign Highway: Vol. 44: Iss. 5, Article 10.
DOI: 10.14048/j.issn.1671-2579.2024.05.010
Available at: https://zwgl1980.csust.edu.cn/journal/vol44/iss5/10

Reference

[1]贺晋瑜 ,何捷 ,王郁涛 ,等.中国水泥行业二氧化碳排放达峰路径研究 [J].环境科学研究 ,2022 ,35(2):347-355.HE Jinyu ,HE Jie ,WANG Yutao ,et al .Pathway of carbon emissions peak for cement industry in China [J].Research of Environmental Sciences ,2022 ,35(2):347-355.
[2]白玫 .中国水泥工业碳达峰 、碳中和实现路径研究 [J].价格理论与实践 ,2021 (4):4-11,53.BAI Mei .Research on the path of achieving carbon peak and carbon neutrality in China ’s cement industry [J].Price :Theory & Practice ,2021 (4):4-11,53.
[3]李鹏鹏 ,任强强 ,吕清刚 ,等.面向双碳的低碳水泥原料 /燃料替代技术综述 [J].洁净煤技术 ,2022 ,28(8):35-42.LI Pengpeng ,REN Qiangqiang ,LYU Qinggang ,et al .Review on raw meal and fuel substitution technology for low carbon cement under carbon neutrality [J].Clean Coal Technology ,2022 ,28(8):35-42.
[4]TAYEH BASSAM A ,AKEED MAHMOUD H ,SHAKER Q,et al .Influence of sand grain size distribution and supplementary cementitious materials on the compressive strength of ultrahigh-performance concrete [J].Case Studies in Construction Materials ,2022 ,17:e01495 .
[5]姜天华 ,管建成 ,张秀成 .超高性能混凝土掺合料应用综述[J].科学技术与工程 ,2022 ,22(14):5528 -5538 .JIANG Tianhua ,GUAN Jiancheng ,ZHANG Xiucheng .Summary of application of admixtures in ultra-high performance concrete [J].Science Technology and Engineering ,2022 ,22(14):5528 -5538 .
[6]吴浪 ,吴小萍 ,黄斯蕙铭 ,等.稻壳灰 ‒水泥胶凝体系的水化动力学模型 [J].功能材料 ,2022 ,53(5):5178 -5185 .WU Lang ,WU Xiaoping ,HUANG Sihuiming ,et al .Hydrationkinetics model of rice husk ash-blended system[J].Journal of Functional Materials ,2022 ,53(5):5178 -5185 .
[7]佘跃心 ,李锦柱 ,曹茂柏 ,等.稻壳灰及掺稻壳灰混凝土应用研究进展述评 [J].混凝土 ,2016 (6):57-62.SHE Yuexin ,LI Jinzhu ,CAO Maobai ,et al.Research of rice husk ash and application of rice husk ash in concrete [J].Concrete ,2016 (6):57-62.
[8]ZHANG P ,WEI S Y ,CUI G ,et al .Properties of fresh and hardened self-compacting concrete incorporating rice husk ash :A review [J].Reviews on Advanced Materials Science ,2022 ,61:563-575.
[9]MALDONADO-GARCÍA M A ,HERNÁNDEZ-TOLEDO U I,MONTES-GARCÍA P ,et al .Long-term corrosion risk of thin cement composites containing untreated sugarcane bagasse ash [J].Journal of Materials in Civil Engineering ,2019 ,31(4):4019020 .
[10]CORDEIRO G C ,BARROSO T R ,TOLEDO FILHO R D .Enhancement the properties of sugar cane bagasse ash with high carbon content by a controlled re-calcination process [J].KSCE Journal of Civil Engineering ,2018 ,22(4):1250 -1257 .
[11]黄萍 ,徐青 ,吴能森 ,等.蔗渣灰特性及其在建筑材料的应用研究综述 [J].武汉工程大学学报 ,2022 ,44(6):599-607.HUANG Ping ,XU Qing ,WU Nengsen ,et al .Review of characteristics of sugar cane bagasse ash and its application in construction materials [J].Journal of Wuhan Institute of Technology ,2022 ,44(6):599-607.
[12]RUKZON S ,CHINDAPRASIRT P .Utilization of bagasse ash in high-strength concrete [J].Materials & Design ,2012 ,34:45-50.
[13]KHAN K ,ISHFAQ M ,AMIN M N ,et al .Evaluation of mechanical and microstructural properties and global warming potential of green concrete with wheat straw ash and silica fume [J].Materials ,2022 ,15(9):3177 .
[14]AL-AKHRAS N M .Durability of wheat straw ash concrete to alkali-silica reaction [J].Proceedings of the Institution of Civil Engineers-Construction Materials ,2013 ,166(2):65-70.
[15]AL-AKHRAS N M .Durability of wheat straw ash concrete exposed to freeze-thaw damage [J].Proceedings of the Institution of Civil Engineers-Construction Materials ,2011 ,164(2):79-86.
[16]许鹏 ,许昌东 ,王正君 ,等.生物质秸秆灰活性分析及对混凝土力学特 性的影响 [J].混凝土 ,2020 (3):108-112,116.XU Peng ,XU Changdong ,WANG Zhengjun ,et al .Activity analysis of biomass straw ash and its effect on mechanical properties of concrete [J].Concrete ,2020 (3):108-112,116.
[17]CAO F ,QIAO H X ,LI Y K ,et al .Effect of highland barley straw ash admixture on properties and microstructure of concrete [J].Construction and Building Materials ,2022 ,315:125802 .
[18]SAMANTHA H ,LOURDES S ,JOSÉ M ,et al .Evaluation of rice straw ash as a pozzolanic addition in cementitious mixtures [J].Applied Sciences ,2021 ,11(2):773.
[19]FRÍAS M ,SAVASTANO H ,VILLAR E ,et al .Characterization and properties of blended cement matrices containing activated bamboo leaf wastes [J].Cement and Concrete Composites ,2012 ,34(9):1019 -1023 .
[20]MOHAMED A ,TAYEH BASSAM A ,KANDIL MOHAMED A ,et al.Effect of rice straw ash and palm leaf ash on the properties of ultrahigh-performance concrete [J].Case Studies in Construction Materials ,2022 ,17:e01266 .
[21]李晓明 ,崔明 ,顾红波 .广西生物质资源状况及利用初探[J].河南农业科学 ,2011 ,40(4):27-29.LI Xiaoming ,CUI Ming ,GU Hongbo .Biomass resources situation and utilization in Guangxi Zhuang Autonomous Region [J].Journal of Henan Agricultural Sciences ,2011 ,40(4):27-29.
[22]赵保峰 ,谢洪璋 ,任常在 ,等.生物质电厂灰渣建材化应用[J].科学技术与工程 ,2022 ,22(17):6802 -6811 .ZHAO Baofeng ,XIE Hongzhang ,REN Changzai ,et al .Application of biomass power plant ash as building materials [J].Science Technology and Engineering ,2022 ,22(17):6802 -6811 .
[23]ZHANG P ,LIAO W Y ,KUMAR A ,et al .Characterization of sugarcane bagasse ash as a potential supplementary cementitious material :Comparison with coal combustion fly ash [J].Journal of Cleaner Production ,2020 :123834 .
[24]卫煜 ,陈平 ,明阳 ,等.超细高活性矿物掺合料对 UHPC水化和收缩性能的影响 [J].硅酸盐通报 ,2022 ,41(2):461-468.WEI Yu ,CHEN Ping ,MING Yang ,et al .Effects of ultrafine and highly active mineral admixtures on hydration and shrinkage properties of UHPC [J].Bulletin of the Chinese Ceramic Society ,2022 ,41(2):461-468.
[25]黄柏宗 .紧密堆积理论的微观机理及模型设计 [J].石油钻探技术 ,2007 ,35(1):5-12.HUANG Bozong .Microscopic mechanisms and model design of close packing theory [J].Petroleum Drilling Techniques ,2007 ,35(1):5-12.
[26]牛建刚 ,边钰 ,刘威亨 ,等.高强轻骨料混凝土配合比设计方法及试验研究 [J].硅酸盐通报 ,2020 ,39(11):3480 -3487 .NIU Jiangang ,BIAN Yu ,LIU Weiheng ,et al .Mix proportion design method and experimental research of high-strength lightweight aggregate concrete [J].Bulletin of the Chinese Ceramic Society ,2020 ,39(11):3480 -3487 .
[27]刘润清 ,孙斯慧 ,杨元全 .粉煤灰粒径分布对硅酸盐水泥水化性能的影响 [J].中国粉体技术 ,2017 ,23(5):83-86.LIU Runqing ,SUN Sihui ,YANG Yuanquan .Effect of particle size distribution of fly ash on hydration property of silicate cement [J].China Powder Science and Technology ,2017 ,23(5):83-86.
[28]MA J T ,WANG D G ,ZHAO S B ,et al.Influence of particle morphology of ground fly ash on the fluidity and strength of cement paste [J].Materials ,2021 ,14(2):283.
[29]QIAN R S ,ZHANG Y S ,LIU C ,et al .Effects of supplementary cementitious materials on pore-solution chemistry of blended cements [J].Journal of Sustainable Cement-Based Materials ,2022 ,11(6):389-407.
[30]李瑶 ,刘润清 ,齐雯涵 ,等.硅灰粒径分布对混凝土微观结构及其低温抗压强度的影响 [J].中国粉体技术 ,2019 ,25(6):75-80.LI Yao ,LIU Runqing ,QI Wenhan ,et al .Effects of particle size distribution of silica fume on pore structure and compressive strength of concrete at low temperature [J].China Powder Science and Technology ,2019 ,25(6):75-80.
[31]龚建清 ,包文进 .复掺稻壳灰 /硅灰以及橡胶粉对水泥砂浆性能的影响 [J].混凝土 ,2020 (6):137-142.GONG Jianqing ,BAO Wenjin .Properties of cement mortar containing rice husk ash/silica fume and rubber powder [J].Concrete ,2020 (6):137-142.
[32]GOVINDARAJAN D ,JAYALAKSHMI G .XRD ,FTIR and SEM studies on calcined sugarcane bagasse ash blended cement [J].Archives of Physics Research ,2011 ,2(4):38-44.
[33]THOMAS B S ,YANG J ,BAHURUDEEN A ,et al .Sugarcane bagasse ash as supplementary cementitious material in concrete :A review [J].Materials Today Sustainability ,2021 ,15:100086 .
[34]SHAO Q Y ,ZHENG K R ,ZHOU X J ,et al.Enhancement of nano-alumina on long-term strength of Portland cement and the relation to its influences on compositional and microstructural aspects [J].Cement and Concrete Composites ,2019 ,98:39-48.
[35]DUNA L L ,AUDREY N N G ,TCHAMBA A B ,et al .Engineering and mineralogical properties of Portland cement used for building and road construction in Cameroon [J].International Journal of Pavement Research and Technology ,2022 ,15(4):821-834.
[36]WANG X P ,YU R ,SONG Q L ,et al .Optimized design of ultra-high performance concrete (UHPC ) with a high wet packing density [J].Cement and Concrete Research ,2019 ,126:105921 .
[37]PAPADAKIS V G ,TSIMAS S .Supplementary cementing materials in concrete [J].Cement and Concrete Research ,2002 ,32(10):1525 -1532 .
[38]谭盐宾 ,李化建 ,谢永江 ,等.烧失量和细度对粉煤灰浆体流变特性的影响 [J].铁道建筑 ,2010 ,50(2):127-129.TAN Yanbin ,LI Huajian ,XIE Yongjiang ,et al .Effect of ignition loss and fineness on rheological properties of fly ash mortar [J].Railway Engineering ,2010 ,50(2):127-129.
[39]FAN X ,LI Z L ,ZHANG W Z ,et al .Effects of different supplementary cementitious materials on the performance and environment of eco-friendly mortar prepared from waste incineration bottom ash [J].Construction and Building Materials ,2022 ,356:129277 .
[40]LI G L ,ZHOU C K ,AHMAD W ,et al .Fly ash application as supplementary cementitious material :A review [J].Materials ,2022 ,15(7):2664 .
[41]杨华全 ,李鹏翔 ,陈霞 .水工混凝土碱 ‒骨料反应研究综述[J].长江科学院院报 ,2014 ,31(10):58-62.YANG Huaquan ,LI Pengxiang ,CHEN Xia .The state-of-art of alkali aggregate reaction of hydraulic concrete [J].Journal of Yangtze River Scientific Research Institute ,2014 ,31(10):58-62.
[42]CORDEIRO G ,FILHO R T ,FAIRBAIRN E .Effect of calcination temperature on the pozzolanic activity of sugar cane bagasse ash [J].Construction and Building Materials ,2009 ,23(10):3301 -3303 .
[43]李洪涛 ,李炳熙 ,徐有宁 ,等.灼烧方式对稻壳灰形貌特征和成分的影响 [J].农业机械学报 ,2013 ,44(4):131-136.LI Hongtao ,LI Bingxi ,XU Youning ,et al .Effect of calcination method on morphological characteristics and composition of rice husk ash [J].Transactions of the Chinese Society for Agricultural Machinery ,2013 ,44(4):131-136.
[44]李松阳 ,刘建坤 ,陈越 ,等.秸秆中钾元素对生物质成灰特性的影响研究 [J].太阳能学报 ,2019 ,40(5):1324 -1329 .LI Songyang ,LIU Jiankun ,CHEN Yue ,et al.Study on effect of kalium element in straw on ash characteristics of biomass [J].Acta Energiae Solaris Sinica ,2019 ,40(5):1324 -1329 .
[45]EMBONG R ,SHAFIQ N ,KUSBIANTORO A ,et al .Effectiveness of low-concentration acid and solar drying as pre-treatment features for producing pozzolanic sugarcane bagasse ash [J].Journal of Cleaner Production ,2016 ,112:953-962.
[46]LI C Y ,GENG H B ,ZHOU S Y ,et al.Experimental study on preparation and performance of concrete with large content of fly ash [J].Frontiers in Materials ,2022 ,8:764820 .[47]薛翠真 ,申爱琴 ,郭寅川 .基于孔结构参数的掺 CWCPM混凝土抗压强度预测模型的建立 [J].材料导报 ,2019 ,33(8):1348 -1353 .XUE Cuizhen ,SHEN Aiqin ,GUO Yinchuan .Prediction model for the compressive strength of concrete mixed with CWCPM based on pore structure parameters [J].Materials Reports ,2019 ,33(8):1348 -1353 .
[48]张延年 ,张祥坤 ,顾晓薇 ,等.铁尾矿基多元矿物掺和料耦合水化机理分析 [J].非金属矿 ,2022 ,45(3):103-106.ZHANG Yannian ,ZHANG Xiangkun ,GU Xiaowei ,et al .Coupling hydration mechanism analysis of multicomponent mineral admixtures based on iron tailings [J].Non-Metallic Mines ,2022 ,45(3):103-106.
[49]AMER A A ,EL-HOSENY S .Properties and performance of metakaolin pozzolanic cement pastes [J].Journal of Thermal Analysis and Calorimetry ,2017 ,129(1):33-44.
[50]李响 .复合水泥基材料水化性能与浆体微观结构稳定性[D].北京 :清华大学 ,2010 .LI Xiang .Hydration performance and microstructural stability of complex cementitious materials [D].Beijing :Tsinghua University ,2010 .
[51]ADNAN K ,MUHAMMAD A S ,MUHAMMAD T B ,et al .Assessment for utilization of tobacco stem ash as a potential supplementary cementitious material in cement-based composites [J].Journal of Building Engineering ,2022 ,53:104531 .
[52]王淑娟 ,金玉杰 .秸秆灰理化特性及作为混凝土掺和料可行性 [J].非金属矿 ,2020 ,43(2):30-33.WANG Shujuan ,JIN Yujie .Physical and chemical properties of straw ash and its feasibility as a concrete admixture [J].Non-Metallic Mines ,2020 ,43(2):30-33.
[53]HASAN N M S ,SOBUZ M H R ,KHAN M M H ,et al .Integration of rice husk ash as supplementary cementitious material in the production of sustainable high-strength concrete [J].Materials ,2022 ,15(22):8171 .
[54]SUN L Y ,GONG K .Silicon-based materials from rice husks and their applications [J].Industrial & Engineering Chemistry Research ,2001 ,40:5861 -5877 .
[55]SPAT R A ,SANTOS LIMA GEANNINA TEREZINHA D ,LAURA S ,et al .Characterization and investigation of the use of oat husk ash as supplementary cementitious material as partial replacement of Portland cement :Analysis of fresh and hardened properties and environmental assessment [J].Construction and Building Materials ,2023 ,363:129762 .
[56]BIE R S ,SONG X F ,LIU Q Q ,et al .Studies on effects of burning conditions and rice husk ash (RHA ) blending amount on the mechanical behavior of cement [J].Cement and Concrete Composites ,2015 ,55:162-168.
[57]BAHURUDEEN A ,SANTHANAM M .Influence of different processing methods on the pozzolanic performance of sugarcane bagasse ash [J].Cement and Concrete Composites ,2015 ,56:32-45.
[58]TORRES DE SANDE V ,SADIQUE M ,BRAS A ,et al .Activated sugarcane bagasse ash as efficient admixture in cement-based mortars :Mechanical and durability improvements [J].Journal of Building Engineering ,2022 ,59:105082 .
[59]RITHUPARNA R ,JITTIN V ,BAHURUDEEN A .Influence of different processing methods on the recycling potential of agro-waste ashes for sustainable cement production :A review [J].Journal of Cleaner Production ,2021 ,316:128242 .
[60]JUHÁSZ A Z .Aspects of mechanochemical activation in terms of comminution theory [J].Colloids and Surfaces A :Physicochemical and Engineering Aspects ,1998 ,141(3):449-462.
[61]魏博 ,张一敏 ,包申旭 .机械活化提高石煤提钒尾渣活性[J].金属矿山 ,2017 (2):188-192.WEI Bo ,ZHANG Yimin ,BAO Shenxu .Vanadium tailing activity increase by mechanical activation [J].Metal Mine ,2017 (2):188-192.
[62]CORDEIRO G C ,TOLEDO FILHO R D ,TAVARES L M ,et al .Ultrafine grinding of sugar cane bagasse ash for application as pozzolanic admixture in concrete [J].Cement and Concrete Research ,2009 ,39(2):110-115.
[63]姚金环 ,黎铉海 ,潘柳萍 ,等.机械活化强化矿物浸出过程的研究进展 [J].现代化工 ,2011 ,31(7):12-15.YAO Jinhuan ,LI Xuanhai ,PAN Liuping ,et al .Research progress in mineral leaching enhanced by mechanical activation [J].Modern Chemical Industry ,2011 ,31(7):12-15.
[64]RÍOS-PARADA V ,JIMÉNEZ-QUERO V G ,VALDEZ-TAMEZ P L ,et al.Characterization and use of an untreated Mexican sugarcane bagasse ash as supplementary material for the preparation of ternary concretes [J].Construction and Building Materials ,2017 ,157:83-95.
[65]赵晖 ,孙伟 ,高波 ,等.粉煤灰品质对混凝土性能影响研究[J].应用基础与工程科学学报 ,2012 ,20(3):484-491.ZHAO Hui ,SUN Wei ,GAO Bo ,et al .The effect of fly ash qualify on the properties of concrete [J].Journal of Basic Science and Engineering ,2012 ,20(3):484-491.
[66]张华 ,薛永杰 ,石占斌 .研磨对生物质灰粒度和胶凝活性的影响 [J].武汉理工大学学报 ,2014 ,36(9):22-27.ZHANG Hua ,XUE Yongjie ,SHI Zhanbin .Effect of milling on fineness and cementitious activity of biomass ash [J].Journal of Wuhan University of Technology ,2014 ,36(9):22-27.
[67]AHMAD W ,AHMAD A ,OSTROWSKI K A ,et al .Sustainable approach of using sugarcane bagasse ash in cement-based composites :A systematic review [J].Case Studies in Construction Materials ,2021 ,15:e00698 .
[68]ALIU ADEKUNLE O ,OLALUSI OLADIMEJI B ,AWOYERA PAUL O ,et al .Evaluation of pozzolanic reactivity of maize straw ash as a binder supplement in concrete [J].Case Studies in Construction Materials ,2023 ,18:e01790 .
[69]BINICI H ,YUCEGOK F ,AKSOGAN O ,et al .Effect of corncob ,wheat straw ,and plane leaf ashes as mineral admixtures on concrete durability [J].Journal of Materials in Civil Engineering ,2008 ,20(7):478-483.
[70]ZAHEER M M ,TABISH M .The durability of concrete made up of sugar cane bagasse ash (SCBA ) as a partial replacement of cement :A review [J].Arabian Journal for Science and Engineering ,2023 ,48(4):4195 -4225 .
[71]RAM BABU P V ,RAMA RAO G V .Study on sugarcane bagasse ash as a partial replacement of cement in M60 grade concrete exposed to acidic environment [J].International Journal of Civil Engineering ,2017 ,4(9):1-9.
[72]JITTIN V ,BAHURUDEEN A .Evaluation of rheological and durability characteristics of sugarcane bagasse ash and rice husk ash based binary and ternary cementitious system [J].Construction and Building Materials ,2022 ,317:125965 .
[73]GIACCIO G ,DE SENSALE G R ,ZERBINO R .Failure mechanism of normal and high-strength concrete with rice-husk ash [J].Cement and Concrete Composites ,2007 ,29(7):566-574.
[74]NAHIDA N ,AHMAD B J .Experimental investigation of rice husk ash on compressive strength ,carbonation and corrosion resistance of reinforced concrete [J].Australian Journal of Civil Engineering ,2021 ,19(2):155-163.