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Anggono,
Willyanto
U niversitas Kristen Petra, Surabaya, East Java, lndonesie
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Combustion Characteristics Behavior of fterocarpus indiors Leaves Waste Briquette at Various Particle Size and Pressure
0pen Access
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Biomass briquette investigation fmm Fterocarpus indicus twigs waste as an alternative renewable energy
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lnvestigation on biomass briquette from Ccrbera manghas waste twigs as retlewable energy sou rce
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Relded documentsEfed ofCerbera Manghas biodiesel on diesel engine performance Open Access
Vierr abstract
v
Related documentsAnggono, W., Supriento, F,D., Gotama, GJ., Sutrisno, Evander, J.
Anggonq \U., Sutrisno, Supriantq F.D., Evander, J., Gotama, GJ.
Anggonq W., Suprianto, F.D., Sutrisno, (...), Evander.J., Kasrun, A.W.
Anggono, W., Noor, M.M., Suprianto, F.D., (...), Gotama,6J., Setiyawan, A.
2018 IOP Conference Series: Meterials Science and Engineering
lnternational Journal of Renewable Energy Research
ARPN Journal ofEngineering and Applied Sciences
lnternational Journal of Automotive and Mechanical Engineering
!-*-.
Document title Authors Year Source Cited by
Biomass Briquette lnvestigation *om Piterocarpus lndicus Leaves Waste as Anggonq W., Sutning Supriantq F-D., 2017 IOP Conference Series: Materials 4 \.
an Ahemative Ren*reble Energy Evander, I Science and Engincering h '
Open Access
Vianr abstract v Related documents
Behaviourofbiogascortainingnitrogenonflammabilitylimitsandbminar AnggonqW. 2017 lntemationaljournal ofRenewable s
burningvelocities Energy Research
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Theelfectsofpartrclesizcandpressureonthe combustioncharacteristicsof Sutrisno,AnggonqW.,Suprianto,F.D., 201? ARPNJournal ofEngiaeeringand 6 cerbera manghasleaf briquettes Kasrun, A\ff., siahaan, l.H. Applied Sciences
Vierr abstract v Related documents
Performence of gasoline/LPG Bl-fuel engine of manifold absolute pressure Setiyq M-, Waluy+ 8., Anggonq )V. , 2AL6 ARPN Journal of Engineering and 6
sensor (MAP!) variations feedback Husni, M. Applied Scienccs Vicw abstract v Related documents
The influence of Co2 in biogrs flammability limit and laminir burning Anggonq W.. I\lVardana, l.N.G., Larrcs, M., 2016 AIP Conference Pmceedings 3 velocity in spark ignited premix combustion at various pre$sures (..-), Hamidi, N., Hayakewa, A
Manr abstract v Relrted documents
The ef,ect ofnitrogen on biogas flame propagation characteristic in premix Anggonq W., Supriantq F,D., Hartantq 2016 AIP Conference Proceedings I
cornbustion T.l-, Pumomq K., l#iiaya, T.P.
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Etrect of carbon dioxide on flame characteristics in biogas external prernix tuprianto, F.D., l*tggons, !U., Tanoto, 2016 lntemationaljourffil of Applied 2
combustion M.s.C Engineering Re*arch
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Bdravior offlame propagation in biogas spark ignited prtmix combustion Anggonq W., Dwipulra Supriantq F., 2014 Mvanced Materials Research 4 with carbon dioxide inhibitor Wijrya, T.P., Tanoro, M.S.C.
View abstractv Related documcnts
Etrect of inhibitors on biogas larninar burniag velocity and fammebility Anggoirq V., Wardana, LN.G., Lawrs, M., 2013 lntemationalJournal of Engineering Ll limits in spark ignited premix combustion Hughes, KJ. and Technology
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Laminar burning rrelocity and flammability characteristics ofbiogas in spark Anggonq W., Wardana, 1., Lawas, M., {..-}, 2013 Applied Mechanis and Materials 13 ignited premix combustion at reduced pressure Wahyudi, S., Hamidi, N.
View abstract v Related dooments
Biogas laminarburningvelocityand flammabilitycharacteristics in spark AnggonqV-,Wardana, l.N.G-, Law*, M-, 2013 Journal of Physies: Conference Series 15 ignited premix combustion (...) H*midi, N., Hayakewa, A.
0pen Access
Mew abstract v Retated documents
laminar burning characteristics cf biogas-air mixtures in spa* ignited Anggonq W-, Wardana, l.N-6., Laues, M-, 2012 Journal ofApplied Sciences Research 15 premix ombustion (..J, Wahyudi, S., Hamidi, N.
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PAPER • OPEN ACCESS
5th International Conference on Mechanics and Mechatronics Research
(ICMMR 2018)
To cite this article: 2018 IOP Conf. Ser.: Mater. Sci. Eng.417 011001
View the article online for updates and enhancements.
1
Content from this work may be used under the terms of theCreative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
Published under licence by IOP Publishing Ltd
1234567890‘’“”
5th International Conference on Mechanics and Mechatronics Research (ICMMR 2018) IOP Publishing IOP Conf. Series: Materials Science and Engineering 417 (2018) 011001 doi:10.1088/1757-899X/417/1/011001
PREFACE
The 5th I nternational Conference on Mechanics and Mechatronics Research (I CMMR 2018) was held at Morito Memorial Hall of Tokyo University of Science, Japan during July 19-21, 2018.
The conference has received 80 papers, 42 papers are accepted for publication. The participants are from Japan, USA, France, China, Korea, I ndonesia, Ecuador, I ran, Pakistan, Kazakhstan, Malaysia, etc. The conference program included keynote, oral and poster presentations from scholars working in the areas to establish platforms for collaboration. This conference covered recent trends and progresses made in the field of mechanics and mechatronics research.
The objective of the conference is to bring academia, industry together to exchange and share their experiences and research results, and discuss the practical challenges encountered and the potential solutions.
I nternational scientific activities, like conference, symposium and workshop are big scientific platforms for knowledge exchange among the scientists from all over the world. I nternational scientific activities are the best opportunities for the students, researchers and engineers to interact with the experts and specialists to get their advice or consultation on technical matters. The theme of this conference was the key issues associated with science and technology in this rapidly evolving field of research and to promote contact between basic researches and technological needs for real advanced mechanics and mechatronics.
We express our deepest gratitude to all members of the scientific committee, invited speakers, reviewers, sponsors, participants in the conference and members of the I CMMR organizing committee for their valuable contribution to the successful organization of I CMMR 2018.
IOP Conference Series: Materials Science and Engineering
PAPER • OPEN ACCESS
Committee
To cite this article: 2018 IOP Conf. Ser.: Mater. Sci. Eng.417 011002
View the article online for updates and enhancements.
1
Content from this work may be used under the terms of theCreative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
Published under licence by IOP Publishing Ltd
1234567890‘’“”
5th International Conference on Mechanics and Mechatronics Research (ICMMR 2018) IOP Publishing IOP Conf. Series: Materials Science and Engineering 417 (2018) 011002 doi:10.1088/1757-899X/417/1/011002
Committee
Conference Committee Chairs
Prof. Kazuo Umemura, Tokyo University of Science, Japan Prof. Shih-Chieh Lin, National Tsing-Hua University, Taiwan Prof. Sabri Cetin, University of I llinois at Chicago, USA
Program Committee Chairs
Prof. Arunachala Kannan, Arizona State University, USA
Assoc. Prof. Guocheng Lv, China University of Geosciences, China
I nternational Technical Committees
Prof. Jian-Gang Guo, Tianjin University, China
Prof. Livija Cveticanin, Faculty of Technical Sciences, Serbia Prof. Zhuo Wang, Harbin Engineering University, China Prof. Belkacem OULD BOUAMAMA, Lille University, France Prof. Jung-Min Yang, Kyungpook National University, South Korea
Prof. Dr.Evgenia Kirillova, RheinMain University of Applied Sciences, Germany Prof. S.M Sapuan, Universiti Putra malaysia, Malaysia
Prof. Ch. Sanjay, GI TAM University Hyderabad, I ndia
Assoc.Prof.Shu-San Gan, Petra Christian University, I ndonesia
Assoc. Prof. Li-Jun Zhou, Tianjin University of Technology and Education, China Assoc. Prof. Kuo-Chih Chuang, Zhejiang University, China
Assoc. Prof. Willyanto Anggono, Petra Christian University, I ndonesia
Assoc. Prof. Hamdan Haji Ya, Universiti Teknologi PETRONAS (UTP), Malaysia Assoc. Prof. Kaykhosrow Khojier, I slamic Azad University, I ran
Assoc. Prof. Hilton Ahmad, Tun Hussein Onn University of Malaysia Assoc. Prof. Rajkumar Durairaj, Universiti Tunku Abdul Rahman
Assoc. Prof. Megat Ahmad Kamal Megat Hanafiah, Universitit Teknologi MARA Cawangan Pahang
Assoc. Prof. Saravanan Pichiah, I ndian I nstitute of Technology, I ndia Asst. Prof. Chih-Ling Huang, Kaohsiung Medical University, Taiwan Dr. Sammy V. Militante, University of Antique, Philippines
Dr. S Krishnakumar, Defence Research and Development Organisation, I ndia Dr. Grzegorz I lewicz, University of Bielsko-Biała, POLAND
Dr. Zheng Wei, Beijing University of Chemical Technology, China
Dr. Reza Rashidi, State University of New York, Alfred State College, USA Dr.Sumit Desai, Veermata Jijabai Technological I nstitute, I ndia
Maria Shevtsova, RheinMain University of Applied Sciences, Germany
Uğur Arabacı, Gazi University, Ankara, Turkey
Ervina Efzan Mhd Noor, Multimedia University, Malaysia Atilla Altintas, Chalmers University of Technology, Sweden
IOP Conference Series: Materials Science and Engineering
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Volume 417 September2018
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Combustion Characteristics Behauior of Pterocarpus indicusLeauesWaste Bfquette atVarious Particle Size and Pressure Wil\6nto Anggono, Fandi D. Suprlanto, Gabrlel Jeremy Gotaina, Sutrisno and Jovian Errander
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IOP Conference Series: Materials Science and Engineering
PAPER • OPEN ACCESS
Combustion Characteristics Behavior of Pterocarpus indicus Leaves
Waste Briquette at Various Particle Size and Pressure
To cite this article: Willyanto Anggono et al 2018 IOP Conf. Ser.: Mater. Sci. Eng.417 012007
View the article online for updates and enhancements.
1
Content from this work may be used under the terms of theCreative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
Published under licence by IOP Publishing Ltd
1234567890‘’“”
5th International Conference on Mechanics and Mechatronics Research (ICMMR 2018) IOP Publishing IOP Conf. Series: Materials Science and Engineering 417 (2018) 012007 doi:10.1088/1757-899X/417/1/012007
Combustion Characteristics Behavior of
Pterocarpus indicus
Leaves Waste Briquette at Various Particle Size and Pressure
Willyanto Anggono1, Fandi D. Suprianto2, Gabriel Jeremy Gotama3, Sutrisno4 and Jovian Evander5
1,2,3,4,5Mechanical Engineering Department, Petra Christian University, Surabaya, Indonesia
1,2,3,4,5Centre for Sustainable Energy Studies, Petra Christian University, Surabaya, Indonesia
E-mail: willy@petra.ac.id
Abstract. As one of the countries with a high variety of plant species, Indonesia becomes a potential source for biomass fuel. One plant that commonly found in the street of Surabaya, Indonesia is Pterocarpus indicus. The plant exists in large number and produced litters from its leaves waste. The litters negatively affect Surabaya city cleanliness. The previous study suggested a solution for this problem is by converting these litters into biomass fuel in the form of briquette. The solution may help this problem by reducing the wastes in Surabaya street and avoiding unnecessary handling of these wastes by burning or burying. In order to maximize the potential of Pterocarpus indicus leaves waste briquette, two primary parameters of briquette production were investigated in this study. These parameters are particle size of briquette and pressure used for compacting the briquette. This study used four burning characteristics (flame temperature, ignition time, burning time and combustion rate) to determine the best particle size and pressure to obtain the highest quality of briquette. The result of the study indicates
Pterocarpus indicus produced with particle size of 60 mesh and compacting pressure of 2 MPa yield the best quality of briquette.
1.Introduction
One major cause in the decrease of fossil fuel reservoir comes from the growth of human population on earth [1,2]. The decrease of fossil fuel reservoir brings unfavorable condition in fuel market by putting the price of energy resources higher. A new sustainable and renewable energy resources are in demand with the decrease of fossil fuel reservoir. By utilizing new resources of renewable energy, the
fluctuation of energy resources’ market price will stabilize [3,4].
Biomass is one of many renewable energy sources that has been studied thoroughly. Many sources of biomass include industrial waste, algae, aquatic plants, wood, wastes of wood, urban waste (solid), agriculture crops, agriculture wastes, and animal wastes. The major advantage of biomass is its availability in nature which makes them easily acquired without requiring an exorbitant cost in the process [5]. Another advantage of biomass in term of usage as fuel comes from the capability of its sources (plants) to reduce CO2. The ability of plants to reduce CO2 may cause biomass fuel to leave no additional carbon footprint when utilized and thus be considered as CO2 neutral fuel [5].
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5th International Conference on Mechanics and Mechatronics Research (ICMMR 2018) IOP Publishing IOP Conf. Series: Materials Science and Engineering 417 (2018) 012007 doi:10.1088/1757-899X/417/1/012007
the main material. The thermo-chemical process is divided further into five categories, combustion, gasification, liquefaction, pyrolysis, and hydrogenation [1].
The most regular process for utilizing biomass is by directly ignite biomass and converting them into chemical energy. The chemical energy obtained is used by transforming them into heat, electricity, machine-driving energy and man more. This process is known as direct combustion [6]. Although convenient, directly combusting biomass without pre-processing might not always work. Biomass with water content higher than 50% cannot be burned and it is common to acquire biomass with this level of water content [1]. Pre-processing is needed to reduce the water content of biomass to a suitable level. Another weakness by directly combusting biomass is the transportation issue. Biomass requires more space during transportation because of its low bulk density. In a condition where a large amount of biomass need to be transported, the transportation requires high expenditure [7].
These weaknesses in direct combustion can be subdued by processing the biomass into briquette [7,8]. Briquette is a process to transform biomass into a product with higher bulk density and energy density [8]. Higher heating value, better energy properties, lower moisture content and higher density are some advantages of briquette compared to its raw material [9]. Steps of creating biomass are reducing the water content of biomass, shred the biomass into the desired size and compacting and forming briquette by applying pressure. The energy required to create briquettes is lower than the energy obtained from utilizing them [10]. The effect of briquette in the social environment are also positive. Briquette is found to reduce energy shortages, improving the ecological condition, and
growing people’s earning [11].
The wastes of plants have been one of many primary sources of biomass [12]. Countries with a tropical climate and myriads of floras varieties have a high level of biomass resources. Developing countries are also known to generate a high number of biomass [5]. Indonesia fits these characteristics and it has many plants wastes ready to be utilized as biomass fuel. One plants that are usually found in Indonesia is Pterocarpus indicus. Pterocarpus indicus is mainly found in the street of Surabaya (a major city in Indonesia) as greening plants. Pterocarpus indicus is a type of plant that generates a lot of wastes from its leaves. The wastes of these plant dropped in Surabaya street and become litters. The appearance of Pterocarpus indicus tree and its wastes are presented in figure 1. In taking care of these litters, people tried to burn them. The burning of these wastes results in additional GHG (greenhouse gases) in Surabaya air and exhausting viable source of energy. To avoid these kinds of careless treatments of Pterocarpus indicus leaves waste, the leaves waste can be processed into briquette fuel.
Figure 1.Pterocarpus indicus tree and leaves waste in Surabaya
Processing Pterocarpus indicus leaves waste by converting them into briquette may reduce the leaves waste presence in Surabaya street without adding GHG in the environment. Briquette will help the energy potential of Pterocarpus indicus leaves waste to be utilized and the high bulk density of briquette helps in distributing the fuel. The previous study has discovered the potential of Pterocarpus indicus leaves waste as briquette [4]. To further this solution by increasing the quality of briquette produced, the optimal briquette processing parameters need to be discovered. Parameters in manufacturing briquette such as particle size and pressure affect the quality of briquette [2,13]. This study was conducted to discover these parameters level to obtain the optimum size for Pterocarpus indicus leaves waste briquette material, and the optimum level of pressure used in compacting
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5th International Conference on Mechanics and Mechatronics Research (ICMMR 2018) IOP Publishing IOP Conf. Series: Materials Science and Engineering 417 (2018) 012007 doi:10.1088/1757-899X/417/1/012007
2.Experimental method
The steps of creating briquette begin by obtaining Pterocarpus indicus leaves waste. Obtaining
Pterocarpus indicus leaves waste can be done by simply collecting the fallen leaves beneath
Pterocarpus indicus plant. After acquiring the leaves waste, the leaves waste was dried in the sun for three days to reduce the water content of leaves waste. Afterward, the dried leaves waste was shredded into various sizes for the purpose of this study. The sized leaves waste was then mixed with tapioca flour mixture to create briquette materials. Subsequently, the blend of these materials was put under pressure to shape the briquette. After acquiring the briquettes, they are tested as part of obtaining data for the study. Final result of Pterocarpus indicus leaves waste briquette product is given in figure 2.
Figure 2. Briquette from Pterocarpus indicus leaves waste
In studying the effect of particle size of Pterocarpus indicus leaves waste briquette, three different sizes were used, 20 mesh or 800 μm, 40 mesh or 425 μm, and 60 mesh or 250 μm. These particle sizes were investigated to understand their effect on Pterocarpus indicus leaves waste briquette’s strength
and combustion characteristics. For studying the effect of compacting pressure in briquette, two levels of pressure were used, 1 MPa and 2 MPa. Pressures were applied by utilizing the hydraulic machine to a mold. The mold has 25 mm diameter and 50 mm length [4].
Briquettes created from two various pressures and three particle sizes were tested to investigate the optimum pressure and particle size for producing Pterocarpus indicus leaves waste briquette. The effect of this parameter on combustion characteristics was examined. The combustion characteristics investigated were flame temperature, ignition time, burning time, and combustion rate. Temperature
evaluated in the briquette’s surface when combustion occurred is the flame temperature. the time
measured for briquette to continuously burn is known as ignition time. While the time evaluated for
briquette to turn into ashes is known as burning time. The rapidity of briquette’s change of mass is
known as combustion rate.
3.Results and discussion
A previous study on Pterocarpus indicus leaves waste briquette discovered the optimum proportion of
Pterocarpus indicus leaves waste and tapioca mixture. This study also conducted proximate and ultimate analyses on Pterocarpus indicus leaves waste briquette and determine its calorific value. The study suggested that 90% Pterocarpus indicus leaves waste and 10% tapioca mixture ratio is the optimum ratio for highest calorific value. The calorific value of Pterocarpus indicus leaves waste briquette was found to reach 4648 kcal/kg, which is higher compared to the other type of biomass briquettes such as sawdust, rice straw and sugar cane [4].
The previous study has also conducted proximate and ultimate analyses of Pterocarpus indicus
leaves waste briquette. The proximate analysis results are 5.2 % water content, 6.2 %wt ash content, 73.3% volatile matter, 15.3 %wt fixed carbon, and 0.25 %wt total sulfur. The ultimate analysis results are 49.12 %wt carbon. 5.67 %wt hydrogen, 0.19 %wt nitrogen, 0.25 %wt sulphur, and 33.4 %wt oxygen. These two analyses results indicated that Pterocarpus indicus leaves waste briquette is a viable renewable energy source [4].
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5th International Conference on Mechanics and Mechatronics Research (ICMMR 2018) IOP Publishing IOP Conf. Series: Materials Science and Engineering 417 (2018) 012007 doi:10.1088/1757-899X/417/1/012007
(a) (b)
(c) (d)
Figure 3. Combustion characteristics at various particle size and pressure
(a) Flame Temperature Characteristics, (b) Ignition Time Characteristics, (c) Burning Time Characteristics, (d) Combustion rate Characteristics
The effect of pressure and particle size to the ignition time value is shown in figure 3(b). The higher pressure and finer particle size lead to longer ignition time of Pterocarpus indicus leaves waste briquette. The longest duration of ignition time is obtained with a value of 306 seconds from
Pterocarpus indicus leaves waste briquette composed of 60 mesh particle size and compacted with the hydraulic pressure of 2 MPa.
The effect of pressure and particle size to the burning time value is shown in figure 3(c). The higher pressure and finer particle size lead to longer burning time of Pterocarpus indicus leaves waste briquette, similar to ignition time. The longest duration of burning time is obtained with a value of 7823 seconds from Pterocarpus indicus leaves waste briquette composed of 60 mesh particle size and compacted with the hydraulic pressure of 2 MPa.
The effect of pressure and particle size on the combustion rate is shown in figure 3(d). The higher pressure and finer particle size lead to lower combustion rate of Pterocarpus indicus leaves waste briquette. The lowest combustion rate is obtained with a value of 0.00252 gram/seconds from briquette composed of 60 mesh particle size and compacted with the hydraulic pressure of 2 MPa.
4.Summary
This study shows the interaction between compacting pressure and particle size to the quality of briquette produced. As the particle size becomes smaller and compacting pressure rises, the flame temperature, ignition time, and burning rate increase. In contrast, the combustion rate decreases with finer level of particle size and higher pressure. It was discovered that the optimum pressure for compacting Pterocarpus indicus leaves waste briquette is 2 MPa. The optimum particle size for shredding Pterocarpus indicus leaves waste was found to be 60 mesh (800 μm). Pterocarpus indicus
leaves waste briquette with these levels of parameters has a flame temperature of 613 °C, ignition time of 306 seconds, burning time of 7923 seconds and combustion rate of 0.00252 gram/second.
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5th International Conference on Mechanics and Mechatronics Research (ICMMR 2018) IOP Publishing IOP Conf. Series: Materials Science and Engineering 417 (2018) 012007 doi:10.1088/1757-899X/417/1/012007
thorough study in hope for supporting the notion to utilize leaves waste as means of alternative renewable energy and promote cleaner environment.
Acknowledgments
Thanks to Kementerian Riset Teknologi dan Pendidikan Tinggi Republik Indonesia (Hibah Penelitian Produk Terapan 2016-2017) and Universitas Kristen Petra Indonesia for their support during this research.
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[3] Sarkar A and Praveen G 2016 Biofuels and Bioenergy Int. Conf. (India) (Switzerland: Springer International Publishing AG) p 117
[4] Anggono W, Sutrisno, Suprianto F D and Evander J 2017 IOP Conf. Ser.: Mater. Sci. Eng. Vol.
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