|本期目录/Table of Contents|

[1]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(06):599-607.[doi:10.19843/j.cnki.CN42-1779/TQ.202109017]
 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(06):599-607.[doi:10.19843/j.cnki.CN42-1779/TQ.202109017]
点击复制

蔗渣灰特性及其在建筑材料的应用研究综述(/HTML)
分享到:

《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
44
期数:
2022年06期
页码:
599-607
栏目:
综述
出版日期:
2022-12-31

文章信息/Info

Title:
Review of Characteristics of Sugar Cane Bagasse Ash and Its Application in Construction Materials
文章编号:
1674 - 2869(2022)06 - 0599 - 09
作者:
黄 萍徐 青*吴能森李佳佳郑小燕
福建农林大学交通与土木工程学院,福建 福州 350108
Author(s):
HUANG PingXU Qing*WU NengsenLI JiajiaZHENG Xiaoyan
College of Transportation and Civil Engineering,Fujian Agriculture and Forestry University,Fuzhou 350108,China
关键词:
蔗渣灰建筑材料火山灰活性
Keywords:
sugar cane bagasse ash construction materials pozzolanic activity
分类号:
TU52
DOI:
10.19843/j.cnki.CN42-1779/TQ.202109017
文献标志码:
A
摘要:
由于蔗渣灰具有一定的火山灰活性,近年来,在建筑材料领域中的应用已成为蔗渣灰的研究热点。本文首先总结了蔗渣灰的结构形态、物理性质、化学成分以及矿物组成等特性。其次,从控制煅烧条件、降低粒径细度、降低烧失量三个方面总结提高蔗渣灰火山灰活性的措施。再次,归纳论述了目前蔗渣灰在混凝土掺合料、砌块原材料以及地基处理等方面的应用,分析了其对混凝土、砌块和地基性能的影响。最后,对蔗渣灰在建筑材料领域的绿色应用前景进行了展望,提出提高蔗渣灰火山灰活性的措施是未来进一步研究的方向。
Abstract:
Because of the pozzolanic activity of sugar cane bagasse ash (SCBA),the application of SCBA in the field of building materials has become a research hotspot in recent years. In this paper,the structure,physical properties,chemical composition and mineral composition of SCBA were systematically introduced. Measures to improve the activity of bagasse ash and pozzolanic ash were discussed from three following aspects:controlling the calcination conditions,decreasing the fineness of particle size and reducing the loss on ignition. The current applications of SCBA in concrete admixture,block raw material and foundation treatment were summarized,and its influences on concrete,block and foundation performance were also analyzed. Finally,the direction of future research on the application of SCBA was prospected,and it is pointed out that the key issue is improving the pozzolanic activity.

参考文献/References:

[1] AMBEDKAR B, ALEX J, DHANALAKSHMI J. Enhancement of mechanical properties and durability of the cement concrete by RHA as cement replacement:experiments and modeling [J]. Construction and Building Materials,2017,148:167-175.

[2] RODIER L,BILBA K,ONESIPPE C,et al. Study of pozzolanic activity of bamboo stem ashes for use as partial replacement of cement [J]. Materials and Structures,2017,50(1):87:1-14.
[3] AL-AKHRAS N M,ABU-ALFOUL B A. Effect of wheat straw ash on mechanical properties of autoclaved mortar [J]. Cement and Concrete Research,2002,32(6):859-863.
[4] ANDRE?O P V,SULEIMAN A R,CORDEIRO G C,et al. Beneficiation of sugarcane bagasse ash:pozzolanic activity and leaching behavior [J]. Waste and Biomass Valorization,2020,11(8):4393-4402.
[5] MARTIRENA HERNáNDEZ J F,MIDDENDORF B,GEHRKE M,et al. Use of wastes of the sugar industry as pozzolana in lime-pozzolana binders:study of the reaction [J]. Cement and Concrete Research,1998,28(11):1525-1536.
[6] 王卓琳,黎庆涛,田潇凌,等. 甘蔗糖厂废弃物蔗渣灰综合利用的研究进展和展望 [J]. 轻工科技,2018,34(2):74-76,128.
[7] GAR P S,SURESH N,BINDIGANAVILE V. Sugar cane bagasse ash as a pozzolanic admixture in concrete for resistance to sustained elevated temperatures [J]. Construction and Building Materials,2017,153:929-936.
[8] PATEL H. Environmental valorisation of bagasse fly ash:a review [J]. RSC Advances,2020,10(52):31611-31621.
[9] XU Q,JI T,GAO S J,et al. Characteristics and applications of sugar cane bagasse ash waste in cementitious materials [J]. Materials ,2019,12(1):39:1-19.
[10] DEEPIKA S, ANAND G, BAHURUDEEN A, et al. Construction products with sugarcane bagasse ash binder [J]. Journal of Materials in Civil Engineering,2017,29(10):04017189:1-10.
[11] SALES A, LIMA S A. Use of Brazilian sugarcane bagasse ash in concrete as sand replacement [J]. Waste Management,2010,30(6):1114-1122.
[12] BATRA V S, URBONAITE S, S VENSSON G. Characterization of unburned carbon in bagasse fly ash [J]. Fuel,2008,87(13/14):2972-2976.
[13] KATARE V D, MADURWAR M V. Experimental characterization of sugarcane biomass ash-a review [J]. Construction and Building Materials,2017,152:1-15.
[14] 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.
[15] 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.
[16] 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.
[17] KATARE V D,MADURWAR M V. Process standardization of sugarcane bagasse ash to develop durable high-volume ash concrete [J]. Journal of Building Engineering,2021,39:102151:1-11.
[18] 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.
[19] ARENAS-PIEDRAHITA J C,MONTES-GARCíA P,MENDOZA-RANGEL J M,et al. Mechanical and durability properties of mortars prepared with untreated sugarcane bagasse ash and untreated fly ash [J]. Construction and Building Materials,2016,105:69-81.
[20] BRAZ I G,SHINZATO M C,MONTANHEIRO T J,et al. Effect of the addition of aluminum recycling waste on the pozzolanic activity of sugarcane bagasse ash and zeolite [J]. Waste and Biomass Valorization,2019,10(11):3493-34513.
[21] JOSHAGHANI A, MOEINI M A. Evaluating the effects of sugar cane bagasse ash (SCBA) and nanosilica on the mechanical and durability properties of mortar [J]. Construction and Building Materials,2017,152:818-831.
[22] KAZMI S M S,MUNIR M J,PATNAIKUNI I,et al. Pozzolanic reaction of sugarcane bagasse ash and its role in controlling alkali silica reaction [J]. Construction and Building Materials,2017,148:231-240.
[23] PEREIRA A,AKASAKI J L,MELGES J L P,et al. Mechanical and durability properties of alkali-activated mortar based on sugarcane bagasse ash and blast furnace slag [J]. Ceramics International,2015,41(10):13012-13024.
[24] 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.
[25] BAHURUDEEN A,MARCKSON A V,KISHORE A,et al. Development of sugarcane bagasse ash based Portland pozzolana cement and evaluation of compatibility with superplasticizers [J]. Construction and Building Materials,2014,68:465-475.
[26] CHUSILP N,JATURAPITAKKUL C,KIATTIKOM-OL K. Effects of LOI of ground bagasse ash on the compressive strength and sulfate resistance of mortars [J]. Construction and Building Materials,2009,23(12):3523-3531.
[27] GANESAN K, RAJAGOPAL K,THANGAVEL K. Evaluation of bagasse ash as supplementary cementitious material [J]. Cement and Concrete Composites,2007,29(6):515-524.
[28] BATOOL F,MASOOD A,ALI M. Characterization of sugarcane bagasse ash as pozzolan and influence on concrete properties [J]. Arabian Journal for Science and Engineering,2020,45(5):3891-3900.
[29] FRíAS M, VILLAR-COCI[N] A E, SáNCHEZ, de ROJAS M I,et al. The effect that different pozzolanic activity methods has on the kinetic constants of the pozzolanic reaction in sugar cane straw-clay ash/lime systems:application of a kinetic-diffusive model [J]. Cement and Concrete Research,2005,35(11):2137-2142.
[30] MEENA V D, DOTANIYA M L, COUMAR V, et al. A case for silicon fertilization to improve crop yields in tropical soils [J]. Proceedings of the National Academy of Sciences,India Section B:Biological Sciences,2014,84(3):505-518.
[31] le BLOND J S,HORWELL C J,WILLIAMSON B J,et al. Generation of crystalline silica from sugarcane burning [J]. Journal of Environmental Monitoring,2010,12(7):1459-1470.
[32] CORDEIRO G C,TOLEDO FILHO R D,FAIRBAIRN E M R. Effect of calcination temperature on the pozzolanic activity of sugar cane bagasse ash [J]. Construction and Building Materials,2009,23(10):3301-3303.
[33] CORDEIRO G C, TAVARES L M, TOLEDO FILHO R D. Improved pozzolanic activity of sugar cane bagasse ash by selective grinding and classification [J]. Cement and Concrete Research,2016,89:269-275.
[34] FRíAS M,VILLAR E, SAVASTANO H. Brazilian sugar cane bagasse ashes from the cogeneration industry as active pozzolans for cement manufacture [J]. Cement and Concrete Composites,2011,33(4):490-496.
[35] TORRES S M, de LIMA V E, de AZEVEDO BASTO P,et al. Assessing the pozzolanic activity of sugarcane bagasse ash using X-ray diffraction [J]. Construction and Building Materials,2020,264:120684:1-11.
[36] CORDEIRO G C,ANDREAO P V,TAVARES L M. Pozzolanic properties of ultrafine sugar cane bagasse ash produced by controlled burning [J]. Heliyon,2019,5(10):e02566:1-6.
[37] ROSSIGNOLO J A,BORRACHERO M V,SORIANO L,et al. Influence of microwave oven calcination on the pozzolanicity of sugar cane bagasse ashes (SCBA) from the cogeneration industry [J]. Construction and Building Materials,2018,187:892-902.
[38] PAYá J,MONZó J,BORRACHERO M V,et al. Sugar-cane bagasse ash (SCBA):studies on its properties for reusing in concrete production [J]. Journal of Chemical Technology and Biotechnology,2002,77(3):321-325.
[39] CORDEIRO G C, TOLEDO FILHO R D, TAVARES L M,et al. Experimental characterization of binary and ternary blended-cement concretes containing ultrafine residual rice husk and sugar cane bagasse ashes [J]. Construction and Building Materials,2012,29:641-646.
[40] MONTAKARNTIWONG K,CHUSILP N,TANG-CHIRAPAT W,et al. Strength and heat evolution of concretes containing bagasse ash from thermal power plants in sugar industry [J]. Materials and Design,2013,49:414-420.
[41] ARIF E,CLARK M W,LAKE N. Sugar cane bagasse ash from a high efficiency co-generation boiler:applications in cement and mortar production [J]. Construction and Building Materials,2016,128:287-297.
[42] GANI A,NARUSE I. Effect of cellulose and lignin content on pyrolysis and combustion characteristics for several types of biomass [J]. Renewable Energy,2007,32(4):649-661.
[43] LOGANAYAGAN S,MOHAN N C,DHIVYABH-ARATHI S. Sugarcane bagasse ash as alternate supplementary cementitious material in concrete [J]. Materials Today:Proceedings,2021,45:1004-1007.
[44] MURTHI P,POONGODI K,AWOYERA P O,et al. Enhancing the strength properties of high-performance concrete using ternary blended cement:OPC,nano-silica,bagasse ash [J]. Silicon,2020,12(8):1949-1956.
[45] ALI N,MOHD SOBRI M H A,HADIPRAMANA J,et al. Potential mixture of POFA and SCBA as cement replacement in concrete-a review [J]. MATEC Web of Conferences, 2017,103:01006:1-8.
[46] RUKZON S, CHINDAPRASIRT P. Utilization of bagasse ash in high-strength concrete [J]. Materials and Design,2012,34:45-50.
[47] MORETTI J P,NUNES S,SALES A. Self-compacting concrete incorporating sugarcane bagasse ash[J]. Construction and Building Materials,2018,172:635-649.
[48] SOMNA R,JATURAPITAKKUL C,RATTANACHU P,et al. Effect of ground bagasse ash on mechanical and durability properties of recycled aggregate concrete [J]. Materials and Design,2012,36:597-603.
[49] MORAES J C B,TASHIMA M M,AKASAKI J L,et al. Increasing the sustainability of alkali-activated binders:the use of sugar cane straw ash (SCSA) [J]. Construction and Building Materials,2016,124:148-154.
[50] RIBEIRO B, YAMAMOTO T, YAMASHIKI Y. A study on the reduction in hydration heat and thermal strain of concrete with addition of sugarcane bagasse fiber [J]. Materials,2020,13(13):3005:1-14.
[51] BAHURUDEEN A, KANRAJ D, GOKUL DEV V,et al. Performance evaluation of sugarcane bagasse ash blended cement in concrete [J]. Cement and Concrete Composites,2015,59:77-88
[52] DAYO A A, KUMAR A, RAJA A, et al. Effect of sugarcane SCBA as fine aggregates on the flexural strength of concrete [C] // Proceedings of the International Conference on Sustainable Development in Civil Engineering,Jamshoro,Pakistan. [S.l.:s.n.],2019:1-4
[53] MORETTI J P, SALES A, ALMEIDA F C R,et al. Joint use of construction waste (CW) and sugarcane bagasse ash sand (SBAS) in concrete [J]. Construction and Building Materials,2016,113:317-323.
[54] BHOI A K,MANDAL J N, JUNEJA A. Feasibility study of SCBA as a filling material [C]// HOYOS L,SHEHATA H. Advancements in Unsaturated Soil Mechanics. Proceedings of the 3rd GeoMEast International Congress and Exhibition,Egypt 2019 on Sustainable Civil Infrastructures-The Official International Congress of the Soil-Structure Interaction Group in Egypt (SSIGE). Proceedings of the International Congress and Exhibition "Sustainable Civil Infrastructures". [S.l.:s.n.], 2019:81-94.
[55] TORRES de SANDE V, SADIQUE M, PINEDA P,et al. Potential use of sugar cane bagasse ash as sand replacement for durable concrete [J]. Journal of Building Engineering,2021,39:102277:1-19.
[56] KAZMI S M S, MUNIR M J, ABBAS S, et al. Development of lighter and eco-friendly burnt clay bricks incorporating sugarcane bagasse ash [J]. Pakistan Journal of Engineering and Applied Sciences,2017,21:1-5.
[57] FARIA K C P,GURGEL R F,HOLANDA J N F. Recycling of sugarcane bagasse ash waste in the production of clay bricks [J]. Journal of Environmental Management,2012,101:7-12.
[58] ALAVéZ-RAMíREZ R, MONTES-GARCíA P,MARTíNEZ-REYES J,et al. The use of sugarcane bagasse ash and lime to improve the durability and mechanical properties of compacted soil blocks [J]. Construction and Building Materials,2012,34:296-305.
[59] ABU TALIB M K, NORIYUKI Y. Highly organic soil stabilization by using sugarcane bagasse ash (SCBA)[J]. MATEC Web of Conferences,2017,103:07013:1-8.
[60] OKONKWO U N, AGUNWAMBA J C, IRO U I. Geometric models for lateritic soil stabilized with cement and bagasse ash [J]. Nigerian Journal of Technology,2016,35(4):769-777.
[61] SABAT A K. Utilization of bagasse ash and lime sludge for construction of flexible pavements in expansive soil areas [J]. Electronic Journal of Geotechnical Engineering,2012,17:1037-1046.
[62] MANJULA DEVI B,CHORE H S. Feasibility study on bagasse ash as light weight material for road construction [J]. Materials Today:Proceedings,2020,27:1668-1673.

相似文献/References:

[1]高巧玲,范功端*.硅灰对新型地质聚合物胶凝材料力学性能影响的研究进展[J].武汉工程大学学报,2020,42(05):540.[doi:10.19843/j.cnki.CN42-1779/TQ.202004008]
 GAO Qiaoling,FAN Gongduan*.Effects of Silica Fume on Mechanical Properties of Novel Geopolymer-Based Cementitious Materials: a Brief Review[J].Journal of Wuhan Institute of Technology,2020,42(06):540.[doi:10.19843/j.cnki.CN42-1779/TQ.202004008]

备注/Memo

备注/Memo:
收稿日期:2021-09-27
基金项目:福建省交通运输科技项目(202112)
作者简介:黄 萍,硕士研究生。E-mail:30191317002@fafu.edu.cn
*通讯作者:徐 青,博士,讲师。E-mail:xuqing@ fafu.edu.cn
引文格式: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.

更新日期/Last Update: 2023-01-08