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Experimental Investigation on Mineral Content of Fly Bottom Ash and Strength Characteristics of Fly Bottom Ash Bricks -

This investigation is to study the mineral contents of fly bottom ash. After many years of research in sustainable construction materials, the quality of producing construction materials has significantly improved. And the replacement of ordinary cement with fly bottom ash has showed several improvements such as strength and other characteristics. During the production of ordinary cement, CO2 emissions are very high and energy consumption is also very high. Due to limited resources of nature, it has to be reconsidered to use the ordinary cement. The advancement of technologies has led to significantly promote the use of fly bottom ash in ordinary cement in order to improve the quality of construction materials. The fly ash is been used for zeolite synthesis, synthetization of organic geo polymer and in manufacturing of construction materials. Arunkumar. G | Jai Kumaresh. B | Arokia Jerome. D | Parameswaran. P | Rajkumar. T "Experimental Investigation on Mineral Content of Fly Bottom Ash and Strength Characteristics of Fly Bottom Ash Bricks A Review" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-1 , December 2018, URL: https://www.ijtsrd.com/papers/ijtsrd19064.pdf Paper URL: http://www.ijtsrd.com/engineering/mechanical-engineering/19064/experimental-investigation-on-mineral-content-of-fly-bottom-ash-and-strength-characteristics-of-fly-bottom-ash-bricks-u00e2u20acu201c-a-review/arunkumar-g<br>

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Experimental Investigation on Mineral Content of Fly Bottom Ash and Strength Characteristics of Fly Bottom Ash Bricks -

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  1. International Journal of Trend in International Open Access Journal International Open Access Journal | www.ijtsrd.com International Journal of Trend in Scientific Research and Development (IJTSRD) Research and Development (IJTSRD) www.ijtsrd.com ISSN No: 2456 - 6470 6470 | Volume - 3 | Issue – 1 | Nov – Dec 2018 Dec 2018 Experimental Investigation on and Strength Characteristics o and Strength Characteristics of Fly Bottom Ash Bricks Experimental Investigation on Mineral Content of Fly Bottom Ash Mineral Content of Fly Bottom Ash f Fly Bottom Ash Bricks – A Review Arunkumar. G, Jai Kumaresh. B, Arokia Jerome. D, Parameswaran. P, Rajkumar. T Arunkumar. G, Jai Kumaresh. B, Arokia Jerome. D, Parameswaran. P, Rajkumar. T Department of Mechanical Engineering Samayapuram Samayapuram, Tiruchirappalli, Tamil Nadu, India Arunkumar. G, Jai Kumaresh. B, Arokia Jerome. D, Parameswaran. P, Rajkumar. T f Mechanical Engineering, K Ramakrishnan College of Technology, krishnan College of Technology, during production of cement will cause serious environmental contamination such as smog and acid rain and harmful effects to living beings also. the fly-bottom ash is dumped in landfills which cause potential damage to aquifers and ground water reserves. Studies showed many alternative methods for effective solid waste management and improved methods of producing construction materials. Along with Fly-bottom ash many natural organic materi are added to improve the strength characteristics of the construction materials. The other replacements for ordinary cement are fly ash, bottom ash, silica fume, risk husk ash, and Metakaolin etc., through years furthermore have been carried out. 2.Geo-polymer Geo-polymers are either organic or inorganic materials with are formed by repeating units of chemical compounds. 2.1 Geo-polymerization It is the process of combining the chains of monomers to form a covalently bonded network. covalently bonded network. ABSTRACT This investigation is to study the mineral contents of fly-bottom ash. After many years of research in sustainable construction materials, the quality of producing construction materials has significantly improved. And the replacement of ordinary cement with fly-bottom ash has showed several improvements such as strength and other characteristics. During the production of ordinary cement, CO2 emissions are very high and energy consumption is also very high. Due to limited resources of nature, it has to be reconsidered to use the ordinary cement. The advancement of technologies has led to significantly promote the use of fly-bottom ash in ordinary cement in order to improve the quality of construction materials. The fly ash is been used for zeolite synthesis, synthetization of organic geo in manufacturing of construction materials. KEY WORDS: sustainable; zeolite synthesis; geo polymer 1.INTRODUCTION Rising population, urbanization and industrial revolution has significantly improved the production of solid waste and other wastes. Waste management is worldwide phenomenon. India produces about 40 million tones of solid waste every year. In our day to day life the collection of waste very tedious process and disposal of municipal solid waste is a great problem of urban life. The proper disposal of urban waste is necessary for the preservation of natural resources and development of environment. One of the major solid waste of Thermal power plant is fly ash. By mixing the fly ash with concrete during construction there will be significant reduction in production of solid waste and green house gas such as CO2. Concrete is the most widely used construction material in the world. The green house gases produced The green house gases produced This investigation is to study the mineral contents of bottom ash. After many years of research in sustainable construction materials, the quality of producing construction materials has significantly improved. And the replacement of ordinary cement bottom ash has showed several improvements such as strength and other characteristics. During the production of ordinary cement, CO2 emissions are very high and energy consumption is also very high. Due to limited resources of nature, it has to be econsidered to use the ordinary cement. The advancement of technologies has led to significantly bottom ash in ordinary cement in order to improve the quality of construction materials. The fly ash is been used for zeolite synthetization of organic geo-polymer and in manufacturing of construction materials. during production of cement will cause serious environmental contamination such as smog and acid rain and harmful effects to living beings also. Mostly bottom ash is dumped in landfills which could cause potential damage to aquifers and ground water reserves. Studies showed many alternative methods for effective solid waste management and improved methods of producing construction materials. Along bottom ash many natural organic materials are added to improve the strength characteristics of The other replacements for ordinary cement are fly ash, bottom ash, silica fume, risk husk ash, and Metakaolin etc., through years furthermore researches sustainable; zeolite synthesis; geo- polymers are either organic or inorganic materials with are formed by repeating units of Rising population, urbanization and industrial revolution has significantly improved the production of solid waste and other wastes. Waste management is worldwide phenomenon. India produces about 40 million tones of solid waste every year. In our day to y life the collection of waste very tedious process and disposal of municipal solid waste is a great problem of urban life. The proper disposal of urban waste is necessary for the preservation of natural resources and development of environment. One of major solid waste of Thermal power plant is fly ash. By mixing the fly ash with concrete during construction there will be significant reduction in production of solid waste and green house gas such as Concrete is the most widely used construction It is the process of combining the chains of monomers Figure 1.1 Figure 1.1 @ IJTSRD | Available Online @ www.ijtsrd.com www.ijtsrd.com | Volume – 3 | Issue – 1 | Nov-Dec 2018 Dec 2018 Page: 889

  2. International Journal of Trend in Scientific Research and Development International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 (IJTSRD) ISSN: 2456-6470 The above figure 1.1 shows 5 soluble oligomers which are the actual starting units of potassium alumino-silicate geo-polymerization. 2.2 Geo-polymer cement It is a new type of concrete which utilizes only a small portion of ordinary cement as a binder, binding characteristics are based upon the reaction of an alkaline liquid with organic materials which are rich in silica and alumina. 2.3 Materials used in geopolymer concrete 2.3.1 Blast-furnace slag is a non- powder material consists of silica and alumina essential for geopolymer synthesization , it is a product of iron and steel industry . It has the ability to improve the durability of the concrete so it has been widely used across the world. 2.3.2 Metakaolin is formed by heating china clay (kaolinite) between the range of 650o basically used to improve the binding property of concrete. 2.3.4 Alkaline Solutions, solutions which have PH value more than 7 are alkaline solutions these are used in many day to day applications. Some examples potassium hydroxide and sodium hydroxide etc., 3.METHOD OF MANUFACTURING Ash bricks can be prepared by the use of different semi automatic and automatic machines with the use of moulds pre attached in machines, where using of manual moulds in the manufacturing method leads to frequent change in the size of the bricks and may results in the poor exterior quality of the bricks. Approximately every ash bricks manufacturing plant uses machines to produce ash bricks, which led to the use of less labours and makes the cost less of per ash bricks which can be easily afforded by low to high class families. There are 3 different proportion by which fly ash bricks can be prepared which depends on the materials available. 3.2 PROCESS OF MANUFACTURING Manufacturing process is illustrated in the form of flow chart as shown in the figure 1.2. The flow demonstrates the step by step process of preparing the fly-ash bricks. The above figure 1.1 shows 5 soluble oligomers which are the actual starting units of potassium-based Compilation of Compilation of materials materials It is a new type of concrete which utilizes only a small portion of ordinary cement as a binder, binding characteristics are based upon the reaction of an alkaline liquid with organic materials which are rich Mixing in correct Mixing in correct proportions proportions Finely ground in Finely ground in hydraulic mixer hydraulic mixer eopolymer concrete -metallic fine powder material consists of silica and alumina essential for geopolymer synthesization , it is aby- product of iron and steel industry . It has the ability to Ash and sand stone Ash and sand stone is added to mixture is added to mixture concrete so it has been is formed by heating china clay Added to pan to have uniform dry mix to have uniform dry mix Added to pan-mixture oc-850oc. It is basically used to improve the binding property of which have PH Water content ratio mustn’t exceed 0.6% exceed 0.6% Water content ratio value more than 7 are alkaline solutions these are used in many day to day applications. Some examples potassium hydroxide and sodium hydroxide etc., METHOD OF MANUFACTURING Ash bricks can be prepared by the use of different nd automatic machines with the use of moulds pre attached in machines, where using of manual moulds in the manufacturing method leads to frequent change in the size of the bricks and may results in the poor exterior quality of the bricks. ry ash bricks manufacturing plant uses machines to produce ash bricks, which led to the use of less labours and makes the cost less of per ash bricks which can be easily afforded by low to high class families. There are 3 different proportion by ash bricks can be prepared which depends Add the mix to the mould of required shape mould of required shape Add the mix to the After drying transfer After drying transfer it to Planck it to Planck Bricks are carried out to plancks for Purpose of air Bricks are carried out to plancks for Purpose of air drying for 2 drying for 2-3 days PROCESS OF MANUFACTURING Manufacturing process is illustrated in the form of flow chart as shown in the figure 1.2. The flow demonstrates the step by step process of preparing the Water curing is done to achieve requied strength requied strength Water curing is done to achieve Figure 1.2 Process of manufacturing Process of manufacturing @ IJTSRD | Available Online @ www.ijtsrd.com www.ijtsrd.com | Volume – 3 | Issue – 1 | Nov-Dec 2018 Dec 2018 Page: 890

  3. International Journal of Trend in Scientific Research and Development International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 (IJTSRD) ISSN: 2456-6470 on limestone in future, in addition to this emission of CO2 in the atmosphere is the major threat for climatic changes. Vikas R Nadig et al (2015) as Partial Sand Replacement in Concrete. From this study physical characteristics of concrete when partially replaced with bottom ash as coarse aggregates. The implementation of Bottom ash in concrete shows a effective improvement in strength characteristics and waste management as well as resources conservation The den concrete decreases with the increase in bottom ash content, since the specific gravity of bottom ash is low as compared to fine aggregates. A S Cadersa et al (2014) this study shows the Use of Untreated Bottom Ash as partial Replacement in Concrete. Unprocessed bottom ash is investigated for its structural characteristics in this study. Varying compositions of bottom ash in percentage (20%, 30%, 40%, 60%, and 80% re experimentally investigated for its physical and chemical characteristics. The results show that increase in bottom ash content increases the blending capability. 40% replacement of bottom ash decreases characteristics such as, compressive strength, and modulus of elasticity. From this research it is said that 20% replacement of bottom ash is the optimum percentage also shows that 20% is the optimum percentage to achieve favorable strength. Lokeshappa et al. (2011) has st small portion of fly ash is utilized in construction field and the remaining is left unused and untreated. The fly ash pollute the atmosphere and water bodies Many researches is to be done in order to utilize the industrial wastes into Numerous research and development programs are undertaken for studying the characteristics of fly ash and to use it for better replacement for ordinary cement. Due to this many benefits can be achieved and better replacement for ordinary cement which may significantly reduce the co2 warming Kumar V. et al. (2005) has estimated that the thermal power industry will produce fly ash at about 190 million tons by 2015 and 325 million tons by 2019. million tons by 2015 and 325 million tons by 2019. on limestone in future, in addition to this emission of in the atmosphere is the major threat for climatic 4.MIXING PROPORTIONS Mixing proportions make a great impact on strength characteristics of fly-bottom ash bricks, so in know the optimize mixing proportions various research has been done over this area, Recent conclusions are reported below in table 1.1. are reported below in table 1.1. Mixing proportions make a great impact on strength bottom ash bricks, so in-order to know the optimize mixing proportions various research has been done over this area, Recent studied the Bottom Ash as Partial Sand Replacement in Concrete. From this characteristics of concrete when partially replaced with bottom ash as coarse aggregates. The implementation of Bottom ash in concrete shows a effective improvement in strength waste management as well as resources conservation The density of Bottom Ash concrete decreases with the increase in bottom ash content, since the specific gravity of bottom ash is low as compared to fine aggregates. this study shows the Use of Table 1.1 Mixing proportions 1.1 Mixing proportions Untreated Bottom Ash as partial Replacement in Concrete. Unprocessed bottom ash is investigated for its structural characteristics in this study. 5.ISSUES IN WASTE MANAGEMENT Mr. Abhimanyu Sing (2014) has studied the waste management status & health effects, according to his study, the random wastes in the streets which remain uncollected are increasing on a day to day basis it has to be separated as bio degradable and non bio degradable and to be sent for waste treatment. An awareness program has to be conducted in order to increase public interest towards waste management. 5.1 ECONOMIC GEOPOLYMER CONCRETE N A Lloyd and B V Rangan (2010) In this study it is said that using fly ash based geo polymer as a replacement for ordinary cement is very economical in both ecological aspect and monetary terms. Other characteristic improvement in construction materials are the low creep, resistance to sulphate attack and good acid resistance. Finally geo-polymer concrete saves lots of money thus caused due to repairs and maintenance of those infrastructures. 5.2 INEVITABILITY CONCRETE Due to the growth in population and development infrastructure globally, demand for cement as per International Cement Review’s report was 3,524 million tons in 2015 which is increasing by nearly 12% annually which could result in a huge shortage ISSUES IN WASTE MANAGEMENT ) has studied the waste management status & health effects, according to his study, the random wastes in the streets which remain Varying compositions of bottom ash in percentage (20%, 30%, 40%, 60%, and 80% respectively) are experimentally investigated for its physical and chemical characteristics. The results show that increase in bottom ash content increases the blending capability. 40% replacement of bottom ash decreases characteristics such as, compressive strength, flexural strength, and modulus of elasticity. From this research it is said that 20% replacement of bottom ash is the optimum percentage also shows that 20% is the optimum percentage to achieve favorable strength. day to day basis it has to be separated as bio degradable and non bio- sent for waste treatment. An awareness program has to be conducted in order to increase public interest towards waste management. ECONOMIC BENEFITS BENEFITS OF OF In this study it is said that using fly ash based geo- polymer as a replacement for ordinary cement is very economical in both ecological aspect and monetary has stated that the only a small portion of fly ash is utilized in construction field and the remaining is left unused and untreated. The the atmosphere and water bodies. Many researches is to be done in order to utilize the o Numerous research and development programs are undertaken for studying the characteristics of fly ash and to use it for better replacement for ordinary tic improvement in construction construction construction materials. materials. materials are the low creep, resistance to sulphate polymer concrete saves lots of money thus caused due to repairs and maintenance of those Due to this many benefits can be achieved and better ordinary cement which may Y OF OF GEO GEO-POLYMER 2 emission and global to the growth in population and development in infrastructure globally, demand for cement as per International Cement Review’s report was 3,524 million tons in 2015 which is increasing by nearly has estimated that the thermal power industry will produce fly ash at about 190 in a huge shortage @ IJTSRD | Available Online @ www.ijtsrd.com www.ijtsrd.com | Volume – 3 | Issue – 1 | Nov-Dec 2018 Dec 2018 Page: 891

  4. International Journal of Trend in Scientific Research and Development International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 (IJTSRD) ISSN: 2456-6470 2.Roychand R, De Silva S, Law D, Setunge S. Micro and nano engineered high volume ultrafine fly ash cement composite with and without additives. Int J Concr Struct Mater 2016 2016(10):113–24. http://dx.doi.org/10.1007/s40069 http://dx.doi.org/10.1007/s40069-015-0122-7. Roychand R, De Silva S, Law D, Setunge S. Micro and nano engineered high volume ultrafine sh cement composite with and without additives. Int J Concr Struct Mater 2016; OPTIMIZATION: Muhammad N. S. Hadi et al (2018) this study was conducted on optimization of mixes i.e., sio and amount of alkaline liquids such as Na2SiO3 and NaOH . The result shows that the increase in contents of cao and Na2O does not increase the compressive strength of fly ash bricks this led to the intervention of particle size the contents has significant effect on the strength of the bricks. The augmentation of alkaline liquids has showed some improvements in the strength characteristics up to a certain level inclusion beyond that level the alkaline liquids increases the porosity of the bricks which in turn reduces the strength of the bricks. Christof Lanzerstorfer experimental reviewshows the particle size dependence on the composition of various mineral contents in the fly ash. It has been noted that decrease in particle size contrarily increase some of the minerals which contribute to the mass but heavy metals such as hg ,p ,pb etc., decrease in concentration. This phenomenon is due to the coarse particles will not mix well with the mortar. New phenomenon air classification has been applied in this study to classify metals which are independent of the particle size. Conclusion: From this review it has been understood from thermal power plant are rich in silica and alumina so it could be a better replacement for ordinary cement. Due to low specific gravity the bricks produced completely with ash may not be favorable. So in order to achieve physical strength blending of ash with ordinary cement could be a great solution for industrial waste management and reducing greenhouse gases. From further research and study A S Cadersa et al (2014) has said that 20-30% replacement of concrete is the optimum value to achieve desirable qualities beyond this may disrupt the qualities of ordinary cement. Reference 1.Jang JG, Ahn YB, Souri H, Lee HK. A novel eco friendly porous concrete fabricated with coal ash and geopolymeric binder: Heavy metal leaching characteristics and compressive strength. Constr Build Mater 2015;79:173–81. http://dx.doi.org/10. 1016/j.conbuildmat.2015.01.058. this study was conducted on optimization of mixes i.e., sio2 content and amount of alkaline liquids such as Na2SiO3 and NaOH . The result shows that the increase in contents O does not increase the compressive ength of fly ash bricks this led to the intervention of particle size the contents has significant effect on the strength of the bricks. The augmentation of alkaline liquids has showed some improvements in the strength characteristics up to a certain level of inclusion beyond that level the alkaline liquids increases the porosity of the bricks which in turn 3.Belviso C, Cavalcante F, Di Gennaro S, Palma A, Ragone P, Fiore S. Mobility of trace elements in fly ash and in zeolitised coal fly ash. Fuel 2015 144:369–79. http://dx.doi.org/10.1016/j.fuel.2014.12.037 http://dx.doi.org/10.1016/j.fuel.2014.12.037. Belviso C, Cavalcante F, Di Gennaro S, Palma A, Ragone P, Fiore S. Mobility of trace elements in litised coal fly ash. Fuel 2015; 4.Christof Lanzerstorfer,2018, Fly ash from coal combustion: Dependence of the concentration of various elements on the particle size, School of Engineering/Environmental Sciences, University of Applied Sciences Stelzhamerstraße 23, Austria,www.elsevier.com/locate/fuel ia,www.elsevier.com/locate/fuel Christof Lanzerstorfer,2018, Fly ash from coal combustion: Dependence of the concentration of various elements on the particle size, School of tal Sciences, University of Applied Sciences Stelzhamerstraße 23, Christof Lanzerstorfer et et al al (2018) (2018) this Upper A A-4600 Upper Austria, Austria, Wels, shows the particle size dependence on the composition of various mineral contents in the fly ash. It has been noted that decrease in particle size contrarily increase some of the minerals which contribute to the mass but heavy 5.P. Nath, P. Sarker, Effect of alkaline activator properties on the fly ash based geopolymer concrete for ambient curing condi Concrete 2013: Proceedings of the 26th Biennial National Conference of the Concrete Institute Australia, 2013. P. Nath, P. Sarker, Effect of alkaline activator properties on the fly ash based geopolymer concrete for ambient curing condition, in: Concrete 2013: Proceedings of the 26th Biennial National Conference of the Concrete Institute , decrease in concentration. This phenomenon is due to the coarse will not mix well with the mortar. New phenomenon air classification has been applied in this study to classify metals which are independent of the 6.AS 1012.9: Methods of testing concrete Compressive strength tests grout specimens, International Ltd, Australia, 2014. nal Ltd, Australia, 2014. AS 1012.9: Methods of testing concrete- Compressive strength tests-Concrete, mortar and grout specimens, Standards Standards Australian Australian m this review it has been understood that ashes from thermal power plant are rich in silica and alumina so it could be a better replacement for ordinary cement. Due to low specific gravity the bricks produced completely with ash may not be order to achieve physical strength blending of ash with ordinary cement could be a great solution for industrial waste management and 7.G.S. Ryu, Y.B. Lee, K.T. Koh, Y.S. Chung, The mechanical properties of fly ashbased geopolymer concrete with alkaline activators, Constr. Build. Mater. 47 (2013) 409–418. 418. G.S. Ryu, Y.B. Lee, K.T. Koh, Y.S. Chung, The mechanical properties of fly ashbased geopolymer concrete with alkaline activators, Constr. Build. 8.D. Adak, M. Sarkar, S. Mandal, Effect of nano silica on strength and durability of fly ash based geopolymer mortar, Constr. Build. Mater. 70 (2014) 453–459. D. Adak, M. Sarkar, S. Mandal, Effect of nano- ength and durability of fly ash based geopolymer mortar, Constr. Build. Mater. 70 A S Cadersa et al 30% replacement of ash in 9.S. Zeng, J. Wang, Characterization of mechanical and electric properties of geopolymers synthesized using four locally available fly ashes, Constr. Build. Mater. 121 (2016) 386 er. 121 (2016) 386–399. S. Zeng, J. Wang, Characterization of mechanical and electric properties of geopolymers synthesized using four locally available fly ashes, Constr. concrete is the optimum value to achieve desirable qualities beyond this may disrupt the qualities of 10.Arunkumar.G | Dr. P. Navaneetha Krishnan "Experimental Enhancement of Heat Transfer Analysis on Heat Pipe using SiO2 and TiO2 Nano Fluid" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume 6470, Volume-2 | Issue-4 , June 2018 Arunkumar.G | Dr. P. Navaneetha Krishnan "Experimental Enhancement of Heat Transfer Analysis on Heat Pipe using SiO2 and TiO2 Nano " Published in International Journal of Trend in Scientific Research and Development (ijtsrd), Jang JG, Ahn YB, Souri H, Lee HK. A novel eco- friendly porous concrete fabricated with coal ash binder: Heavy metal leaching characteristics and compressive strength. Constr 11.Muhammad N.S. Hadi , Mustafa Al Yu(2018), School Yu(2018), School Muhammad N.S. Hadi , Mustafa Al-Azzawi, Tao http://dx.doi.org/10. of of Civil, Civil, Mining Mining and and @ IJTSRD | Available Online @ www.ijtsrd.com www.ijtsrd.com | Volume – 3 | Issue – 1 | Nov-Dec 2018 Dec 2018 Page: 892

  5. International Journal of Trend in Scientific Research and Development International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 (IJTSRD) ISSN: 2456-6470 Environmental Wollongong, Australia, Effects of fly ash characteristics and alkaline activator compo on compressive strength of fly ash geopolymer mortar Environmental Engineering, Engineering, University University of of Achievement of sustainable solid management in developing countries management in developing countries sustainable solid waste Effects of fly ash characteristics and alkaline activator components on compressive strength of fly ash-based 19.A case study of waste management in the Kavango region, Namibia, Master dissertation 2012, Environmental and Energy System Department of Technology University. A case study of waste management in the mibia, Master dissertation 2012, Environmental and Energy System Studies, Technology and Society, Lund 12.Navaneethakrishnan G, Selvam V, Julyes SJ. Development and mechanical glass/banana fiber hybrid reinforced silica nano particles with epoxy bio-nanocomposites. J Chem Pharm Sci 2015; 7, 197-199. Navaneethakrishnan G, Selvam V, Julyes SJ. Development and mechanical glass/banana fiber hybrid reinforced silica nano nanocomposites. J Chem studies studies of of 20.Assessment of the status of municipal solid waste management in metro cities, state capitals, class I cities, and class II towns in India: An insight, Sunil Kumar ª,*, J.K. Bhattacharyya ª, A.N. Vaidyaª, TapanChakrabartiª, SukumarDevottaª, A.B. Akolkarᵇ, National Engineering Research Institute (NEERI), Nehru Marg, Nagpur 440 020, India, Central Pollution Control Board (CPCB), New Delhi, India. d (CPCB), New Delhi, India. Assessment of the status of municipal solid waste management in metro cities, state capitals, class I s in India: An insight, 13.Illinois Department of Commerce and Community Affairs, Manufacturing Commercial Bricks with Fly Ash from www.commerce.state.il.us. Illinois Department of Commerce and Community Affairs, Manufacturing Commercial Bricks with Fly Ash from Sunil Kumar ª,*, J.K. Bhattacharyya ª, A.N. Vaidyaª, TapanChakrabartiª, SukumarDevottaª, ᵇ, National Engineering Research Institute (NEERI), Nehru Marg, Nagpur 440 020, India, Central Pollution Illinois Illinois Coals, Coals, Environmental Environmental 14.Lingling, X., et al., Study on fired bricks with replacing clay by fly ash in high volume rati Construction and Building Materials. In Press, Corrected Proof. Lingling, X., et al., Study on fired bricks with replacing clay by fly ash in high volume ratio. Construction and Building Materials. In Press, 21.Parag S. Dawane and Prof. Sagar M. Gawande Anantrao Pawar College of Engineering and Research Pune, Parvat REVIEW ARTICLE SOLID WASTE MANAGEMENT REVIEW http://www.journalcra.com,International of Current Research Vol. 7, 16024, May, 2015. Parag S. Dawane and Prof. Sagar M. Gawande Anantrao Pawar College of Engineering and Research Pune, Parvat REVIEW ARTICLE SOLID WASTE MANAGEMENT REVIEW http://www.journalcra.com,International of Current Research Vol. 7, Issue, 05, pp.16019- 15.Pimraksa, K., Wilhelm, M., Kochberger, M. and Wruss, W., A New Approach to the Production of Bricks Made of 100% Fly Ash, 2005 International Ash Utilization Symposium, Center for Applied Energy Research, University of Kentucky, Paper # 84, http://www.flyash.info. Pimraksa, K., Wilhelm, M., Kochberger, M. and Wruss, W., A New Approach to the Production of Bricks Made of 100% Fly Ash, 2005 International Ash Utilization Symposium, Center for Applied ergy Research, University of Kentucky, Paper # Journal Journal 22.Lokeshappa B.,Dikshit Anil Kumar (2011), “Disposal and Management of Fly ash”, IPCBEE, IACSIT Press, Singapore Lokeshappa B.,Dikshit Anil Kumar (2011), “Disposal and Management of Fly ash”, IPCBEE, 16.A Case Study on Municipal Solid Waste Management in Chandan Nagar City S K Maity1, B K Bhattacharyay2, B Bhattacharyya3,1West Bengal University of Technology 2Department of Mechanical Engineering, Bengal Engineering and Science University, Shibpur, 3Department of Production Engineering, Jadavpur University, Corresponding Author: Swapan Kumar Maity Corresponding Author: Swapan Kumar Maity A Case Study on Municipal Solid Waste Management in Chandan Nagar City S K Maity1, B K Bhattacharyay2, B Bhattacharyya3,1West Bengal University of Technology 2Department of al Engineering, Bengal Engineering and Science University, Shibpur, 3Department of Production Engineering, Jadavpur University, 23.Bakri Mohd Mustafa Al, “Review on fly ash based Geopolymer concrete without Portland cement”, JETR Bakri Mohd Mustafa Al, “Review on fly ash- based Geopolymer concrete without Portland 24.International Environmental Engineering, Selangor, Malaysia Environmental Engineering, Selangor, Malaysia Journal of Civil & 25.Aleem A.,Arumairaj P.D.(2012), “Geopolymer Concrete-A Review”, IJEST. IJEST. Aleem A.,Arumairaj P.D.(2012), “Geopolymer 17.A Case Study on Municipal Solid Waste Management in Solapur City, Maharashtra, India, B.L.Chavan*, N.S. Zambare**, *Department of Environmental Science, School of Earth Science, Solapur University, Solapur, India,**Department of Environmental Studies, St. Gonsalo Garcia College, Vasai, India A Case Study on Municipal Solid Waste Management in Solapur City, Maharashtra, India, B.L.Chavan*, N.S. Zambare**, *Department of Environmental Science, School of Earth Science, Solapur University, Solapur, India,**Department of Environmental Studies, St. Gonsalo Garcia 26.Lloyd N.A., Rangan B.V. (2010), “Geopolymer Concrete A Review of Development and Opportunities”, 35th Conference o Concrete & Structures, Singapore. Singapore. Lloyd N.A., Rangan B.V. (2010), “Geopolymer Concrete A Review of Development and Conference on Our World in 27.A. Sumathi, Sumathi, K. K. Saravana Saravana Raja Raja Mohan„ Mohan„ Compressive Strength of Fly Ash Brick with Addition of Lime, Gypsum and Quarry Dust ‟International Journal of ChemTech Research Compressive Strength of Fly Ash Brick with Addition of Lime, Gypsum and Quarry Dust ‟International Journal of ChemTech Research (2014-2015). 18.Appropriate Design and Operation of Sanitary Landfills, Hans- Günter Ramke, HöxterPrepared for the International Conference on Economic Development and Sound Management in Central Asia By Professor Dr. Ing. Hans-Günter Ramke University of Applied Sciences Ostwestfalen-Lippe, Campus der Wilhelmshöhe Phone++49/5271/687 guenter.ramke@hs-owl.de owl.de Appropriate Design and Operation of Sanitary Günter Ramke, HöxterPrepared International Conference on Sustainable Economic Development and Sound Resource Professor Dr.- 28.Er. Rinku Kumar, Er. Naveen Experimental Study on Properties of Fly Ash Bricks International Journal of Research in Aeronautical and Mechanical (September 2014). Er. Rinku Kumar, Er. Naveen Hooda „an Experimental Study on Properties of Fly Ash Bricks International Journal of Research in Aeronautical and Mechanical University of Applied Lippe, Campus Hoexter An 37671 -mail 44, D-37671 130, Hoexter, Hoexter, hans- Engineering Engineering‟ e- ArvidLindell, ArvidLindell, @ IJTSRD | Available Online @ www.ijtsrd.com www.ijtsrd.com | Volume – 3 | Issue – 1 | Nov-Dec 2018 Dec 2018 Page: 893

  6. International Journal of Trend in Scientific Research and Development International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 (IJTSRD) ISSN: 2456-6470 29.Manish ‟Comparative study of ash and red bricks based in survey ‟International Journal of Advanced Research Methodology Technology (December 2016). Manish ‟Comparative study of ash and red bricks based in ional Journal of Advanced Research Methodology Kumar Kumar Sahu, Sahu, Lokesh Lokesh Singh, Singh, agement, Board(Ministry Of Environment & Forests) PariveshBhawan, East ArjunNagar, Delhi – 110 Management, Board(Ministry Of Environment & Forests) PariveshBhawan, East ArjunNagar, Delhi 032 Central Central Pollution Pollution Control Control in in Engineering Engineering & & 40.Materials Science and Engineering: C, 84, 2018, Pages 188- https://doi.org/10.1016/j.msec.2017.11.039 https://doi.org/10.1016/j.msec.2017.11.039. 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  7. International Journal of Trend in Scientific Research and Development International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 (IJTSRD) ISSN: 2456-6470 49.P. Alagarsamy, G.N. Krishnan, S.M. Chen, T. Kokulnathan, T.W. Chen, N. Raja, X. Liu, I.S. Hong and V. Selvam, Int. J. Electrochem. Sci., 12 (2017) 6842. 61.ACI 408R-03. Bond and development of str reinforcing bars in tension. reinforcing bars in tension. G.N. Krishnan, S.M. Chen, T. 03. Bond and development of straight Kokulnathan, T.W. Chen, N. Raja, X. Liu, I.S. Hong and V. Selvam, Int. J. Electrochem. Sci., 12 62.Sarker PK. Bond strength of reinforcing steel embedded in fly ash-based geopolymer concrete. Mater Struct 2011;44:1021 Mater Struct 2011;44:1021–30 Sarker PK. Bond strength of reinforcing steel based geopolymer concrete. 50.Laskar AI, Bhattacharjee R. Rheology of fly ash based geopolymer concrete. ACI Mater J 2011 108:536–42. Laskar AI, Bhattacharjee R. 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Mag Concr Res 2011; 63:763–77. Pan Z, Sanjayan JG, Rangan BV. Fracture properties of geopolymer paste and concrete. Mag 68.Godwin Antony A, Aravind S, Dinesh S, K.Rajaguru, V. Vijayan,” Optimization of Performance Parameters in Computerized IC Engine Using Diesel Blended with Linseed Oil and Leishmaan’s Solution”, Mechanics and Mechanical Engineering, Vol 21 issue 2, pp.no 193-205. Godwin Antony A, Aravind S, Dinesh S, Vijayan,” Optimization of Performance Parameters in zed IC Engine Using Diesel Blended with Linseed Oil and Leishmaan’s Solution”, Mechanics and Mechanical Engineering, Vol 21 59.Sarker PK, Haque R, Ramgolam KV. Fracture properties of heat cured fly ash-based geopolymer concrete. Mater Des 2013; 44:580–6. Sarker PK, Haque R, Ramgolam KV. Fracture Analysis Analysis and and based geopolymer 6. 60.Demie S, Nuruddin MF, Shafiq N. Effects of micro-structure characteristics transition zone on the compressive strength of self-compacting geopolymer concrete. 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  8. International Journal of Trend in Scientific Research and Development International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 (IJTSRD) ISSN: 2456-6470 Processing AISI 4340 Alloy Steel with Electric Discharge Machining”, International Journal of Pure and Applied Mathematics, Vol 117 No. 16 2017, 385-391. Processing AISI 4340 Alloy Steel with Electric Discharge Machining”, International Journal of Pure and Applied Mathematics, Vol 117 No. 16 with Grid Fins, Journal of applied Fluid Mechanics, vol.10, Special Issue, pp.33-39 (SCIE with Grid Fins, Journal of applied Fluid Mechanics, vol.10, Special Issue, pp.33 Indexed Journal). 73.R. Venkatesh, V. Vijayan, Evaluation of Multipurpose Solar Heating System, Mechanics and Mechanical Engineering, vol.20, no.4, pp.359-370(Scopus Indexed Impact factor: 0.11) ijayan, 2016, Performance 70.Dinesh S, Godwin Antony A, K. Vijayan,”Comprehensive Electric Discharge Machining High Chromium High Carbon Steel”, International Journal Production Engineering Development Vol. 8, No 1, Feb 2018, 65 Development Vol. 8, No 1, Feb 2018, 65-74. Rajaguru, V. Analysis Evaluation of Multipurpose Solar Heating System, Mechanics and Mechanical Engineering, vol.20, 370(Scopus Indexed Impact factor: Comprehensive Discharge Analysis Machining Machining of of Wire Wire Electric Machining High Chromium High Carbon Steel”, International Journal Production Engineering Process Process in in of of Mechanical Research Research Mechanical and and and and 74.Rajkumar T., Karuppusamy S., Vijayan V., 2016, Testing of Mechanical Properties of Hybrid Reinforced Composites, Research in Social Sciences and Humanities, Vol. 6, No. 10, pp 213- 225. Rajkumar T., Karuppusamy S., Vijayan V., 2016, Testing of Mechanical Properties of Hybrid Fiber Reinforced Composites, Research in Social Sciences and Humanities, Vol. Asian Asian Journal Journal of of 71.A. M. Rameshbabu, P. Parameshwaran, V. Vijayan, R.Panner, microstructure and thermal stability analysis in a double phase Al20Mg20Ni20Cr20Ti20 high entropy alloy, Journal of Mechanical behavior and materials , vol.26, Issue 3-4, pp.127-132 (Scopus Indexed Journal). Parameshwaran, V. Vijayan, microstructure and thermal stability analysis in a double phase Al20Mg20Ni20Cr20Ti20 high entropy alloy, Journal of Mechanical behavior and materials , R.Panner, 2017, 2017, Diffraction, Diffraction, 75.B. Suresh Kumar, V. Vijayan, N. Baskar, , Optimization of Drilling Process Parameters for Material Removal Rate and Surface Roughness Titanium Alloy using Methodology and Fire Fly Algorithm’, Journal of Research in Social Sciences and Humanities,, Vol. 6, No. 5, May 2016, pp.1251 1267. B. Suresh Kumar, V. Vijayan, N. Baskar, , ‘ Optimization of Drilling Process Parameters for Material Removal Rate and Surface Roughness on Titanium Alloy using Methodology and Fire Fly Algorithm’, Asian Journal of Research in Social Sciences and Humanities,, Vol. 6, No. 5, May 2016, pp.1251- nanocrystalline nanocrystalline Response Response Surface Surface 32 (Scopus Indexed 72.R. Srinivasan, V. Vijayan, K. Sridhar, 2017, Computational Fluid Dynamic Analysis of Missile Sridhar, 2017, Computational Fluid Dynamic Analysis of Missile @ IJTSRD | Available Online @ www.ijtsrd.com www.ijtsrd.com | Volume – 3 | Issue – 1 | Nov-Dec 2018 Dec 2018 Page: 896

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