scholarly journals Characteristics of Charcoal Briquette from the Skin Waste of Areca catechu Fruit with Various Compositions of Adhesive Types

2020 ◽  
Vol 8 (2) ◽  
pp. 189
Author(s):  
Shobar Shobar ◽  
Evi Sribudiani ◽  
Sonia Somadona
Keyword(s):  
Energy Demand ◽  
Alternative Energy ◽  
Calorific Value ◽  
Raw Material ◽  
Average Moisture Content ◽  
Biomass Waste ◽  
Minimum Requirement ◽  
Average Value ◽  
Randomized Design ◽  
Areca Catechu

The increase in energy demand requires the search for alternative energy. One of the potential alternative energies is charcoal briquette that could utilize biomass waste. This study aimed to determine the characteristics of charcoal briquettes from the waste of Areca catechu fruit. This research used a Completely Randomized Design (CRD) with five treatments and five replications and then continued with Duncan's New Multiple Range Test (DNMRT) at a level of 5%. The treatment applied was the composition of starch and sago adhesive with ratios of 5% : 0% (P1), 0% : 5% (P2), 3% : 2% (P3), 2,5% : 2,5% (P4), and 2% : 3% (P5). The result showed that the skin waste of Areca catechu fruit could be used as raw material for charcoal briquettes. The average moisture content and calorific value met the minimum requirement of SNI with an average value of 3.8% and 5602.18 cal/g, respectively. The results revealed that only P1 could meet the minimum requirement of SNI for volatile content, carbon ash content, and carbon bounded content at 14.2%, 7.9%, and 77.8%, respectively. Consequently, the charcoal briquette that could meet SNI on all characteristics was using P1 (starch adhesive 5%: sago adhesive 0%).Keywords: Areca catechu, charcoal briquettes, sago adhesive, starch adhesive

scholarly journals Effect of Burning Temperature on The Quality of Alternatife Bio-energy from Coffee Waste

2020 ◽  
Vol 8 (3) ◽  
pp. 615
Author(s):  
VIBIANTI DWI PRATIWI
Keyword(s):  
Alternative Energy ◽  
Electrical Power ◽  
Calorific Value ◽  
Ash Content ◽  
Organic Wastes ◽  
Raw Material ◽  
Renewable Energy Resources ◽  
Biomass Waste ◽  
Coffee Waste ◽  
Coffee Grounds

ABSTRAKSumber daya energi terbarukan alternatif, seperti biobriket dari biomassa atau limbah organik, dapat menjadi solusi untuk masalah ini. Limbah kopi merupakan limbah yang dihasilkan dalam proses produksi, limbah biomassa ini berpotensi untuk digunakan sebagai bahan baku pembuatan biobriket karena memiliki nilai kalor yang cukup tinggi. Briket arang bio adalah arang gumpalan atau batang yang dibuat dari limbah organik yang telah dicetak sedemikian rupa dengan kekuatan tekanan tertentu dan dicampur dengan bahan perekat seperti tepung tapioka. Tujuan dari penelitian ini adalah untuk mengetahui pengaruh suhu pirolisis dalam produksi briket dari limbah kopi. Suhu pirolisis yang akan digunakan: 200oC, 250oC, 300oC, 400oC dan 500oC. Selain itu, briket akan terdeteksi kadar air, kadar abu, dan nilai kalor. Briket terbaik dari ampas kopi ditemukan pada suhu pembakaran 300oC tanpa perekat dengan nilai kalor 7549,42 kal/gram dan dapat menghasilkan daya listrik sebesar 292,49 W. Namun, briket ini menghasilkan kadar abu tak terduga sebesar 3,7% yang masih di bawah standar SNI 01-6235-2000.Kata kunci: Bahan Bakar Alternatif, Ampas Kopi, Briket, Pirolisis ABSTRACTAlternative renewable energy resources, such as biobriquette from biomass or organic wastes, can be a solution for this problem. Coffee waste is a waste generated in the production process, this biomass waste is potential to be used as raw material for making biobriquette because it has a high enough calorific value. Bio charcoal briquettes are clots or rods charcoal that made from organic wastes which has been molded in such a way with a certain force of pressure and mixed with adhesive materials such as tapioca starch. The purpose of the study is to determine the effect of pyrolysis temperature in the production of briquettes from coffee waste. Based on several literature studies, the pyrolysis temperatures which are going to be used: 200oC, 250oC, 300oC,  400oC and 500oC. In addition, the briquette will be detected the water content, ash content, and caloric value. The best briquettes from coffee grounds are found at a combustion temperature of 300oC without adhesive with a heating value of 7549.42 cal/gram and can produce electrical power of 292,49 W. However, this briquette produces unexpected ash content of 3.7% which is still below to SNI 01-6235-2000 standards.Keywords: Alternative Energy, Biofuel, Briquettes, Coffee Waste, Pyrolysis

Making Charcoal Briquettes from Corncobs Organic Waste Using Variation of Type and Percentage of Adhesives

2017 ◽  
Vol 2 (1) ◽  
pp. 43 ◽  
Author(s):  
Lilih Sulistyaningkarti ◽  
Budi Utami
Keyword(s):  
Moisture Content ◽  
Carbon Content ◽  
Wheat Flour ◽  
Alternative Energy ◽  
Organic Waste ◽  
Calorific Value ◽  
Ash Content ◽  
Volatile Content ◽  
Biomass Waste ◽  
Tapioca Flour

This study aimed to (1) make charcoal briquettes from corncobs organic waste; (2) determine the right type of adhesive to make a corncobs charcoal briquette to produce good quality briquettes; (3) determine the appropriate percentage of adhesive to produce corncobs briquettes to produce good quality briquettes; and (4) know the best characteristics of corncobs charcoal briquettes which include moisture content, volatile content, ash content, carbon content and caloric value. The sample used was corncob obtained from a corn farmer in Pasekan Village, Wonogiri regency. This research used experimental method in laboratory with several stages, namely: (1) preparation of materials; (2) carbonization; (3) crushing and sifting of charcoal (4) mixing charcoal with adhesive and water; (5) briquetting; (6) briquette drying; And (7) analysis of briquette quality. This adhesive types used in this research were tapioca flour and wheat flour and the percentage of adhesive material were 5%, 10% and 15% from total weight of charcoal powder. The result of the research were: (1) charcoal briquettes as alternative energy source can be made from biomass waste (corncobs organic waste); (2) charcoal briquettes from organic corncobs wastes using tapioca flour adhesives have better quality than using wheat flour adhesives; (3) the both charcoal briquettes using 5% of tapioca flour adhesive and 5% wheat flour adhesives have better quality than 10% and 15% in terms of moisture content, volatile content, ash content, carbon content and calorific value; and (4) the best characteristics obtained are for the charcoal briquettes using 5% of tapioca flour adhesive, which have water content of 3,665%; volatile matter amounting of 11.005%; ash content of 4.825%; fixed carbon content of 80.515%; and high heat value of 5661,071%.

scholarly journals KARATERISTIK TANAH GAMBUT SEBAGAI ENERGI ALTERNATIF

2018 ◽  
Vol 4 (2) ◽  
Author(s):  
Abdul Ghofur ◽  
Aqli Mursadin
Keyword(s):  
Energy Source ◽  
Specific Gravity ◽  
Alternative Energy ◽  
Peat Soil ◽  
Calorific Value ◽  
Ash Content ◽  
Raw Material ◽  
Energy Sources ◽  
Alternative Energy Source ◽  
Key Word

Berdasarkan ketersediaan sumber daya gambut yang besar di Provinsi Kalimantan Selatan, maka peluang untuk memanfaatkan potensi tanah gambut sebagai sumber energi alternatif sangat besar. Sumber energi yang didapat dari minyak, gas bumi, dan batubara sedikit demi sedikit berkurang, sehingga perlu dicarikan sumber energi alternatif. Peneliti Lahan Gambut dari Balai Penelitian Tanaman Rawa Pertanian (Balittra) Banjarbaru, Dr Muhammad Noor dalam berita Banjarmasin post tanggal 24 Nopember 2005 tentang “PLN Melirik Lahan Gambut”  menjelaskan, dalam gambut memang terdapat energi yang dapat membangkitkan tenaga listrik, energi yang terdapat dalam gambut cukup tinggi yakni sekitar 5.000 kilo kalori per kilogram. Di Kalsel, keberadaannya setara dengan 65 miliar barel minyak bumi atau sebesar 10 juta barel per tahun energi yang dihasilkan.  Berdasarkan latar belakang tersebut beberapa perumusan masalah  dalam penelitian ini adalah bagaimana usaha untuk melakukan tanah gambut untuk menjadi sumber energi alternatif  yang berkualitas dan  mudah digunakan,  bagimana karateristik tanah gambut sebagai sumber energi alternatif. Salah  satu  cara  untuk mengoptimalkan potensi gambut adalah memanfaatkannya sebagai bahan baku dalam pembuatan briket yang dapat dijadikan sebagai bahan bakar altematif  .  Tujuan dari penelitian ini adalah a) memanfaatkan ketersediaan sumber daya alam dengan menggunakan tanah gambut sebagai energi alternatif  dan b ) mengetahui Nilai kalori, berat jenis, kadar air dan kadar abu di wilayah studi. Tanah gambut yang digunakan sebagai  bahan baku untuk energi alternatif  berasal  dari Desa Gambut Kabupaten Banjar.  Prosedur pelaksanaan penelitian dilakukan terhadap karateristik tanah  gambut diwilayah studi  sebagai sumber energi. Dari hasil penelitian ini menunjukan bahwa untuk tanah gambut di Desa Gambut Kec. Gambut bisa   untuk digunakan sebagai bahan bakar alternatif dengan  teknologi pembriketan. Dengan nilai Kadar Air  0,10%, Kadar Abu 72,65%, berat jenis 2,11 Gs dengan nilai kalori 579,2 cal/g bisa digunakan sebagai bahan  bakar alternatif. Key word : energi alternatif, nilai kalori, tanah gambut. Based on the availability of large peat resources in the province of South Kalimantan, the opportunity to utilize the potential of peat soil as an alternative energy source is very large. Energy sources derived from oil, natural gas, and coal gradually diminish, so alternative energy sources are needed. Peatland Researchers from the Agricultural Swamp Research Institute (Balittra) Banjarbaru, Dr. Muhammad Noor in the Banjarmasin post on November 24, 2005 on "PLN Looking at Peatlands" explained that in peat there is indeed energy that can generate electricity, energy contained in peat quite high at around 5,000 kilos of calories per kilogram. In South Kalimantan, its existence is equivalent to 65 billion barrels of oil or 10 million barrels per year of energy produced. Based on this background, several formulations of the problem in this study are how to make peat soils to be a quality alternative energy source that is easy to use, how the characteristics of peat soil as an alternative energy source. One way to optimize the potential of peat is to use it as a raw material in making briquettes that can be used as alternative fuels. The purpose of this study is a) utilizing the availability of natural resources by using peat soil as alternative energy and b) knowing the calorific value, specific gravity, moisture content and ash content in the study area. Peat soil used as raw material for alternative energy comes from the Gambut Village of Banjar Regency. The procedure for conducting research was carried out on the characteristics of peat soil in the study area as an energy source. From the results of this study indicate that for peat soil in the village of Gambut Kec. Peat can be used as an alternative fuel with briquette technology. With a value of 0.10% moisture content, ash content 72.65%, specific gravity of 2.11 Gs with a calorific value of 579.2 cal / g can be used as an alternative fuel. Key word: alternative energy, calorific value, peat soil.

scholarly journals ENHANCEMENT OF THE CALORIFIC VALUE OF EM1707PTY FRUIT BUNCH (EFB) BY ADDING MUNICIPAL SOLID WASTE AS SOLID FUEL IN GASIFICATION PROCESS

2021 ◽  
Vol 22 (2) ◽  
pp. 10-20
Author(s):  
Amadou Dioulde Donghol Diallo ◽  
Ma’an Fahmi Rashid Alkhatib ◽  
Md Zahangir Alam ◽  
Maizirwan Mel
Keyword(s):  
Municipal Solid Waste ◽  
Solid Waste ◽  
Alternative Energy ◽  
Fossil Fuels ◽  
Calorific Value ◽  
Clean Energy ◽  
Proximate Analysis ◽  
Raw Material ◽  
Environmental Benefit ◽  
Gasification Process

Empty fruit bunch (EFB), a biomass-based waste, was deemed a potential replacement for fossil fuel. It is renewable and carbon neutral. The efficient management of this potential energy will help to deal with the problem associated with fossil fuels. However, a key parameter for evaluating the quality of raw material (EFB) as a fuel in energy applications is the calorific value (CV). When this CV is low, then its potential utilization as feedstock will be restricted. To tackle this shortcoming, we propose to add municipal solid waste to enhance energetic value. Thus, two major issues will be solved: managing solid residues and contributing an alternative energy source. This study aimed to investigate the possibility of mixing EFB and municipal solid waste (MSW) to make clean energy that is conscious of the environment (climate change) and sustainable development. The selected MSW, comprising of plastics, textiles, foam, and cardboard, were mixed, with EFB at various ratios. Proximate analysis was used to determine moisture content, ash, volatiles, and fixed carbon, whilst elemental analysis, is used to determine CHNS/O for MSW, EFB and their various mixtures. The CV of each element was also measured. The research revealed a significant increase in the calorific value of EFB by mixing it with MSW according to MSW/EFB ratios: 0.25; 0.42; 0.66; 1.00 and 1.50 the corresponding calorific values in (MJ/kg) were 19.77; 21.22; 22.67; 27.04 and 28.47 respectively. While the calorific value of pure EFB was 16.86 MJ/kg, the mixing of EFB with MSW promoted the increase in the CV of EFB to an average of 23.83MJ/kg. Another potential environmental benefit of applying this likely fuel was the low chlorine (0.21 wt. % to 0.95 wt. %) and sulfur concentrations (0.041 wt. % to 0.078 wt.%). This potential fuel could be used as solid refuse fuel (SRF) or refuse-derived fuel (RDF) in a pyrolysis or gasification process with little to no environmental effects. ABSTRAK: Tandan buah kosong (EFB), sisa berasaskan biojisim, adalah berpotensi sebagai pengganti bahan bakar fosil. Ia boleh diperbaharui dan karbon neutral. Pengurusan berkesan pada potensi tenaga ini dapat membantu mengatasi masalah melibatkan bahan bakar fosil. Namun, kunci parameter bagi menilai kualiti bahan mentah (EFB) sebagai bahan bakar dalam aplikasi tenaga adalah nilai kalori (CV). Apabila CV rendah, potensi menjadi stok suapan adalah terhad. Sebagai penyelesaian, kajian ini mencadangkan sisa pepejal bandaran ditambah bagi meningkatkan nilai tenaga. Oleh itu, dua isu besar dapat diselesaikan: mengurus sisa pepejal dan menambah sumber tenaga alternatif. Kajian ini bertujuan mengkaji potensi campuran tandan buah kosong (EFB) dan sisa pepejal bandaran (MSW) bagi menghasilkan tenaga bersih dari sudut persekitaran (perubahan iklim) dan pembangunan lestari. Pemilihan MSW, terdiri daripada plastik, tekstil, gabus dan kadbod, dicampurlan dengan pelbagai nisbah EFB. Analisis proksimat telah digunakan bagi mendapatkan  kandungan kelembapan, abu, ruapan, dan karbon tetap, manakala analisis asas telah digunakan bagi mendapatkan CHNS/O bersama MSW, EFB dan pelbagai campuran lain. Nilai kalori (CV) setiap elemen turut diukur. Dapatan kajian menunjukkan penambahan ketara dalam nilai kalori EFB dengan campuran bersama MSW berdasarkan nisbah MSW/EFB 0.25; 0.42; 0.66; 1.00 dan 1.50 nilai kalori sepadan (MJ/kg) adalah 19.77; 21.22; 22.67; 27.04 dan 28.47 masing-masing. Manakala nilai kalori EFB tulen adalah 16.86 MJ/kg, campuran EFB dan MSW menunjukkan kenaikan CV dengan EFB pada purata 23.83MJ/kg. Antara potensi semula jadi lain adalah dengan mencampurkan bahan bakar ini dengan kalori rendah (0.21 wt. % kepada 0.95 wt. %) dan kepekatan sulfur (0.041 wt. % kepada 0.078 wt.%). Bahan bakar ini berpotensi sebagai bahan bakar pepejal sampah (SRF) atau bahan bakar yang terhasil dari pepejal sampah (RDF) melalui proses pirolisis atau proses gasifikasi yang sedikit atau tiada kesan langsung terhadap persekitaran.

scholarly journals TINJAUAN PEMANFAATAN SLUDGE CAKE PABRIK PULP KRAFT SEBAGAI ENERGI ALTERNATIF MELALUI PROSES GASIFIKASI

2015 ◽  
Vol 5 (01) ◽  
Author(s):  
Syamsudin Syamsudin
Keyword(s):  
Moisture Content ◽  
Alternative Energy ◽  
Combustion Process ◽  
Pulp Mill ◽  
Calorific Value ◽  
Steam Gasification ◽  
Gaseous Fuel ◽  
Biomass Waste ◽  
Lime Kiln ◽  
Sludge Cake

Kraft pulp mills generate large amounts of sludge cake with typical calorific value of 24 MJ/kg (dry and ash-free basis). Sludge cake could be utilized as an alternative energy through gasification to produce medium gaseous fuel. Sludge cake has a high moisture content and low dewaterability, probably due to biomass from the microbial growth in the wastewater treatment by activated sludge. These problems could be overcome by the addition of filtration aid utilizing biomass waste from pulp mill and dewatering processes by TAMD method. Drying was continued by utilizing hot flue gas from the boiler or lime kiln. Steam gasification of sludge cake by allothermal model could produce a gaseous fuel with a calorific value of 11 MJ/Nm3. Allothermal gasification model of two reactors was able for handling sludge cake with a moisture content of <55%, but produce gas with a high tar content.Gasification or combustion of sludge cake on this model should be performed at temperatures >1200°C to prevent slagging and fouling problem. In contrast, allothermal gasification model of three reactors could produce gas with a low tar content. Heat of gasification reaction might be supplied from thecombustion of volatile gas. Pyrolysis could be performed at temperatures <500oC to permit adequateheat supply for gasification and high char yield. Substitution of natural gas with producer gas need topay attention to the redesign of the combustion process associated with the lower heat of combustion.Keywords: sludge cake, dewatering, gasification, steam, CO2, medium gaseous fuelABSTRAK Pabrik pulp kraft menghasilkan sludge cake dalam jumlah besar dengan nilai kalor tipikal 20 MJ/kg (dasar kering dan bebas abu). Sludge cake dapat dimanfaatkan sebagai energi alternatif melalui gasifikasi untuk menghasilkan bahan bakar gas medium. Sludge cake memiliki kadar air tinggi dan dewaterability rendah, disebabkan adanya biomassa hasil pertumbuhan mikroba pengolahan air limbahsecara lumpur aktif. Kendala ini diatasi dengan penambahan media bantu  filtrasi memanfaatkan limbah biomassa pabrik pulp dan proses dewatering dengan metode TAMD. Pengeringan dilanjutkan dengan memanfaatkan gas panas dari boiler atau lime kiln. Proses gasifikasi-kukus allothermal terhadap sludge cake dapat menghasilkan gas bakar dengan nilai kalor 11 MJ/Nm3. Gasifikasi allothermal model dua reaktor mampu menangani sludge cake dengan kadar air <55%, namun menghasilkan gas dengan kadar tar yang tinggi. Gasifikasi atau pembakaran sludge cake pada model ini sebaiknya dilakukan pada suhu di bawah 1200oC untuk menghindari terjadinya slagging dan fouling. Sebaliknya, gasifikasi allothermal model tiga reaktor dapat menghasilkan gas dengan kadar tar rendah. Panas reaksi gasifikasi mungkin dapat dipenuhi dari pembakaran gas volatil hasil pirolisis. Pirolisis dapat dilakukan pada suhu <500ºC dengan mempertimbangkan kecukupan suplai panas gasifikasi dan yield arang tinggi. Penggantian gas bumi dengan gas produser perlu memperhatikan redesign proses pembakaran terkait dengan panas pembakaran yang lebih rendah.Kata kunci: sludge cake, dewatering, gasifikasi, kukus, CO2, bahan bakar gas kalor medium

scholarly journals Chemical Properties of Charcoal Briquette with Composition Types of Gerunggang (Cratoxylon Arborescens) and Tumih (Combretocarpus Rotundatus) Wood from Tropical Peatlands

2020 ◽  
Vol 10 (2) ◽  
pp. 17-22
Author(s):  
Alpian ◽  
Raynold Panjaitan ◽  
Adi Jaya ◽  
Yanciluk ◽  
Wahyu Supriyati ◽  
...  
Keyword(s):  
Alternative Energy ◽  
Chemical Properties ◽  
Calorific Value ◽  
Volatile Matter ◽  
Matter Content ◽  
Ash Content ◽  
National Standard ◽  
Fixed Carbon ◽  
Biomass Waste ◽  
Pioneer Plants

Charcoal briquettes can be an alternative energy and can be produced from Gerunggang and Tumih types of wood. These two types of wood are commonly found in Kalampangan Village as pioneer plants on burned peatlands. The research objective was to determine the chemical properties of charcoal briquettes produced from biomass waste from land processing without burning with several compositions of Gerunggang wood and Tumih wood. The chemical properties of charcoal briquettes refer to the Indonesian National Standard (SNI 01-6235-2000) and Standard Permen ESDM No. 047 of 2006. The results showed that all composition treatments in the ash content test, fixed carbon content and calorific value met the standards, while the test for volatile content in all treatment compositions did not meet the Indonesian National Standard (SNI 01-6235-2000). The composition of the most potential chemical properties and following the two standards used is the composition of 100% Tumih with ash content of 7.67%, volatile matter content of 27.23%, fixed carbon of 55.00%, and heating value of 5902.18 cal/g.

scholarly journals PERANCANGAN AWAL PABRIK BIOHIDROGEN DARI LIMBAH CAIR PABRIK KELAPA SAWIT DENGAN FERMENTASI ANAEROBIK PADA KONDISI TERMOFILIK

2012 ◽  
Vol 1 (1) ◽  
pp. 30-37
Author(s):  
Bambang Trisakti ◽  
Irvan ◽  
Hari Tiarasti ◽  
Irma Suraya
Keyword(s):  
Energy Demand ◽  
Alternative Energy ◽  
Anaerobic Fermentation ◽  
Production Capacity ◽  
Raw Material ◽  
Total Production ◽  
Net Income ◽  
The Government ◽  
Break Even Point ◽  
Product Sales

Indonesia has a lot of natural resources which is deficient to fulfill the energy demand of consumers, particularly fuel. Therefore, the government keeps on promoting the search for alternative energy. One of these is hydrogen. Hydrogen is an environmental friendly product that does not produce carbon emissions. In the formation of hydrogen we can use carbohydrate-rich waste as a raw material and by using fermentation process. However, it is still limited research only. So this encourage us to design biohydrogen plant from palm oil mill effluent (POME) with the conditions of thermophilic anaerobic fermentation in order to accomplish the needs of consumers and contribute in developing clean technologies. For the production capacity of 495.1694 tons / year, the total investment required to build a factory of biohydrogen in Indonesia is Rp. 507,190,573,523, - with a total production cost of Rp. 354,636,600,139, -. Parameter feasibility of the production capacity of 495.1694 tons / year is the total product sales of Rp 174,261,989.701, - and net income 180,030,185,327, -. Profit Margin (PM) 41.9% Break Even Point (BEP) 45.24%, Return on Investment (ROI) 35.5%, Pay Out Time (POT) 2.82 years, Return of Network (RON) 59.16%, Internal Rate of Return (IRR) 53.52 %.

scholarly journals Alpian, Yanciluk, dan Wahyu Supriyati

2020 ◽  
Vol 13 (02) ◽  
pp. 22-31
Author(s):  
Agrienvi
Keyword(s):  
Energy Demand ◽  
Alternative Energy ◽  
Raw Materials ◽  
Agricultural Waste ◽  
Economic Value ◽  
Forest Products ◽  
Raw Material ◽  
Wood Pellets ◽  
Industry Waste ◽  
Simple Technology

Energy demand increase follow to population growth factors, high exploration costs, rising world oil prices andthe difficulty of finding sources of oil reserves. These factors cause the governments of several countries toimmediately produce alternative energy that is renewable and environmentally friendly. Wood pellets are analternative energy source. The availability of raw materials is very easy to obtain. Raw materials for wood pelletsfrom the exploitation waste such as logging residues, branches and twigs, wood industry waste such as scraps,sawdust and bark, agricultural waste such as straw and husks. Waste that is developed into a product will produce ahigher economic value. Making pellets from wood waste is an alternative energy material for meeting people's energyneeds. The opportunity to develop wood pellets as fuel is wide open because of the vast potential of forests inIndonesia and the large amount of waste from forest products, both from timber industry waste and exploitationwaste. Equipment, raw materials and the process of making pellets in a simple manner need to be socialized to thepublic so that they can be applied especially for the utilization of potential waste that can be used as raw material formaking pellets.Keywords : wood pellets, waste, simple technology, renewable energy

scholarly journals Production of briquettes from Indonesia agricultural biomass waste by using pyrolysis process and comparing the characteristics

Eksergi ◽  
2021 ◽  
Vol 18 (1) ◽  
pp. 13
Author(s):  
Sri Wahyu Murni ◽  
Tutik Muji Setyoningrum ◽  
Muhamad Maulana Azimatun Nur
Keyword(s):  
Raw Materials ◽  
Agricultural Waste ◽  
Calorific Value ◽  
Matter Content ◽  
Raw Material ◽  
Cellulose Content ◽  
Pressing Pressure ◽  
Pyrolysis Process ◽  
Biomass Waste ◽  
Stem Wood

Indonesia biomass waste is a potential feedstock as a source of renewable energy since it can be converted into carcoal briquettes. However, the production of the briquettes using pyrolysis process using the agricultural waste was lacking. In this research, briquette was made from palm shells,  corncob and soybean stem wood due to its high availability and have high cellulose content. The purpose of this research was to produce briquettes from three kind of raw materials by employing pyrolysis process and compared the characteristics. The briquette was made from different type of raw materials (palm shells, corncob and soybean stem) and  the concentration of binder : 3-7 %. Pyrolysis was done at  500 °C, and 100 kg / cm2 of pressing pressure. Results showed that, the best charcoal briquette was achieved from palm shells by using 5% binder, which resulted 4,1% moisture content, 3.4% ash content,  15% volatile matter content, 77.5% carbon content,  7075 cal/g calorific value and  1.4 kg/cm2 compresive strength. It is found that the concentration of binder and raw material influenced the quality of the briquettes. In overall, the production of the briquettes by employing pyrolysis method could meet the standard.

Biomass Pellets from Oil Palm Empty Fruit Bunches (OP-EFB)

2019 ◽  
Vol 2 (1) ◽  
pp. 65-68
Author(s):  
Rahman Farhan Aditya
Keyword(s):  
Oil Palm ◽  
Energy Demand ◽  
Raw Materials ◽  
Calorific Value ◽  
Volatile Matter ◽  
Proximate Analysis ◽  
Raw Material ◽  
Empty Fruit Bunches ◽  
Binder Ratio ◽  
Binder Concentration

Oil Palm growths in Indonesia are getting higher every year. Oil palm plantationproduced various waste, including oil palm empty fruit bunches (OP-EFB). 95 % Indonesia energy demand still provided by the fossil fuel and only 5 % provided by renewable energy, which provide opportunity of OP-EFB biomass pellets to be utilized as alternative resource. The research of biomass still low, especially research of OP-EFB biomass pellets. Therefore, the research objectives were to determine the production process of OP-EFB and to define the most effective binder and binder ratio for the biomass pellets. This research experiments  consist of shredding, chopping, drying, grinding, and sieving as raw material pretreatment. Also, varying the binder and binder concentration of the mixture between raw materials was the part of this thesis research. The binders used in this thesis research are PVAC paste and tapioca based paste with 4 variations of concentration. The analyses of the biomass pellets characteristic are density,compressive strength, proximate analysis (moisture, ash, volatile matter, and fixed carbon), calorific value, combustion rate, and gas chromatographic & mass spectroscopy (GCMS). The result shows that OP-EFB biomass pellets are qualified to be considered as biomass pellets. The most effective OP-EFB biomass pellets is biomass pellets with 10% tapioca binder concentration.

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