Hydrothermal Treatment of Herb Residue for Solid Fuel Production

Hydrothermal processing is appraised as one of advanced technologies for wet solid waste handling. In this study, herb residue was subjected to hydrothermal treatment. Calorific value, yield, and also proximate analysis of obtained hydro-char were investigated. A cylindrical reactor with an internal volume of 2.5 Litres made of stainless steel and a low-tech component was used in the experiment. The reactor was equipped with a stirrer to ensure heat transfer took place through the entire parts of the solid-water mixture. Solid products were dried by a microwave oven before analysis. The results show that the final temperature, holding time, and solid-water ratio have various effects on the hydro-char yield, calorific value, and proximate analysis of the hydrothermal products. The hydro-char yield decreased with the increase in final temperature and holding time. Meanwhile, the highest hydro-char yield was obtained at the solid-water ratio of ¼. The hydro-char calorific value increased with the increase in final temperature, holding time, and solid-water ratio. The rise in final temperature, holding time, and solid-water ratio resulted in a lower moisture content and volatile matter but higher fixed carbon. Meanwhile, the ash content increased with the solid-to-water ratio.

Download Full-text

Characteristics of Woody Cutting Waste Briquette with Paper Waste Pulp as Binder

E3S Web of Conferences ◽

10.1051/e3sconf/202019000030 ◽

2020 ◽

Vol 190 ◽

pp. 00030

Author(s):

Qurrotin Ayunina Maulida Okta Arifianti ◽

Azmi Alvian Gabriel ◽

Syarif Hidayatulloh ◽

Kuntum Khoiro Ummatin

Keyword(s):

Moisture Content ◽

Ignition Time ◽

Combustion Process ◽

Calorific Value ◽

Volatile Matter ◽

Proximate Analysis ◽

Hydraulic Press ◽

Combustion Characteristic ◽

Paper Waste ◽

Iron Mold

The current research aimed to increase the calorific value of woody cutting waste briquette with paper waste pulp as binder. There were three different binder variation used in this study, they are 5 %, 10 %, and 15 %. To create a briquette, a cylindrical iron mold with diameter of 3.5 cm and height of 3 cm and a hydraulic press with 2 t power were applied. The physical characteristics of the combination woody waste briquette and paper waste pulp, such as moisture content, ash content, volatile matter and carbon fix were examined using proximate analysis. The calorific value of briquetted fuel was tested by bomb calorimeter. The combustion test was performed to determine the combustion characteristic of briquettes, for example initial ignition time, temperature distribution, and combustion process duration. The general result shows that the calorific value of briquette stood in the range of 4 876 kCal kg–1 to 4 993 kCal kg–1. The maximum moisture content of briquette was 5.32 %. The longest burning time was 105 min.

Download Full-text

Physiochemical Properties of Cotton Stalk Biomass from Aricultural Residues

Current World Environment ◽

10.12944/cwe.10.1.44 ◽

2015 ◽

Vol 10 (1) ◽

pp. 343-349 ◽

Cited By ~ 4

Author(s):

Dobariya Umesh ◽

P Sarsavadiya ◽

Krishna Vaja ◽

Khardiwar Mahadeo

Keyword(s):

Calorific Value ◽

Volatile Matter ◽

Proximate Analysis ◽

Agricultural Residues ◽

Ash Content ◽

Cotton Stalk ◽

Fixed Carbon ◽

Physiochemical Properties ◽

Feed Stock ◽

Energy Conversion Process

The study was undertaken to investigate the properties of cotton stalk fuel from the agricultural residues. The whole cotton stalk plant is converted into shredded material with the help of cotton stalk shredder. The capacity of cotton stalk shredder machine is 218 kg/h. The proximate analysis of the shredded cotton stalk in terms of bulk density 34.92 kg / m3 moisture content 13.63 %, volatile matter 74.52 %, ash content (4.95 %, fixed carbon 20.53 % and calorific value of cotton stalk biomass (3827 cal/g) respectively. were showed that agricultural residues are the most potential and their quantitative availability, Since the aim by using shredded cotton stalk as feed stock for energy conversion process of the developed gasifier.

Download Full-text

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

ICONIET PROCEEDING ◽

10.33555/iconiet.v2i1.12 ◽

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.

Download Full-text

Hydrothermal Treatment of Empty Fruit Bunches to Enhance Fuel Characteristics

Energies ◽

10.3390/en14051467 ◽

2021 ◽

Vol 14 (5) ◽

pp. 1467

Author(s):

Hyeok Jin Kim ◽

Chan Park ◽

Rabin Nepal ◽

Sea Cheon Oh

Keyword(s):

Water Content ◽

Hydrothermal Treatment ◽

Reaction Temperature ◽

Material Properties ◽

Subcritical Water ◽

Volatile Matter ◽

Proximate Analysis ◽

Reaction Products ◽

Empty Fruit Bunches ◽

Fuel Characteristics

Hydrothermal pretreatment of biomass can improve fuel characteristics based on the decomposition properties of subcritical water. Thus, this study used a hydrothermal treatment to improve the fuel characteristics of empty fruit bunches (EFBs), which are generated as waste after palm oil extraction. The experimental reaction temperature was increased from 180 °C to 250 °C at an interval of 10 °C and the mass ratios between the dry sample and water content were set to 1:8 and 1:16 so that the sample was sufficiently immersed. Additionally, the material properties of EFB under hydrothermal treatment conditions were investigated using mass and energy yields, elemental analysis, proximate analysis, thermogravimetric analysis, derivative thermogravimetry, and Fourier transform infrared spectroscopy analysis of the reaction products. As the reaction temperature increased, the fixed carbon content and heating value increased because volatile matter, including oxygen, was removed first, which is similar characteristics to coal. All analyses revealed that the water content exhibited little influence on EFB material properties since the samples were sufficiently immersed in water. Thus, it is not necessary to add more water that required for sample immersion for the hydrothermal treatment of EFB.

Download Full-text

COMPARATIVE ANALYSES OF COMBUSTION EFFICIENCIES OF COALS FROM NIGERIA FOR POWER GENERATION

UMUDIKE JOURNAL OF ENGINEERING AND TECHNOLOGY ◽

10.33922/j.ujet_v5i1_7 ◽

2019 ◽

pp. 49-59

Keyword(s):

Power Generation ◽

Thermogravimetric Analysis ◽

Coal Sample ◽

Calorific Value ◽

Volatile Matter ◽

Proximate Analysis ◽

Research Center ◽

Energy Research ◽

Comparative Analyses ◽

Fuel Ratio

Three coal samples from Onyeama (Enugu State), Owukpa (Benue State) and Odagbo (Kogi State) in Nigeria were collected and tested. These were characterized to determine the proximate and the ultimate analyses, calorific value and the thermogravimetric analysis, and their combustion efficiencies for power generation comparatively analyzed. The proximate analysis and the calorific value tests were done at the Energy Research Center, University of Nigeria – Nsukka, while the ultimate analysis test was conducted at the National Geosciences Research Laboratory, Kaduna. Also, the thermogravimetric analysis was carried out at the Energy Research Center, Usman Danfodio University, Sokoto. From the test results, the moisture contents ranged from 10.60 to 16.80%. The Owukpa coal sample had the highest moisture content of 16.80%, followed by Odagbo with 15.95% and Onyeama bearing 10.60%. The volatile matter contents of the samples indicated that Owukpa had the highest value of 19.95%, followed by Onyeama with 18.65% and Odagbo having the least value of 18.58% respectively. Similarly, the Owukpa coal sample had the highest fixed carbon of 55.22% followed by Onyeama with 53.36% and Odagbo with the lowest value of 50.38%, while the ash contents showed Onyeama to possess the highest value of 17.39%, and closely followed by Odagbo with 15.06% and Owukpa having the lowest content of 8.03%. Moreso, Onyeama coal sample with the highest fuel ratio of 2.86 would give the best ease of ignition and fuel burnout followed by Owukpa (2.77), and Odagbo (2.71). The percentages of the elemental carbon of Onyeama, Owukpa and Odagbo coal samples were 52.2170, 53.8178 and 50.8754% respectively, while the hydrogen contents indicated Onyeama (4.7236%), Owukpa (4.0141%) and Odagbo (3.8163%). The nitrogen, sulphur and oxygen contents obtained revealed Onyeama (1.3756, 0.10 and 13.6938%), Owukpa (1.4350, 0.10 and 15.9031%) and Odagbo (1.4260, 0.92 and 12.8423%) respectively. Consequently, the Onyeama coal sample had the highest heating value of 32.916MJ/kg, followed by Odagbo (32.037MJ/kg) and Owukpa (30.062MJ/kg). Based on the comparative analyses, the Onyeama coal indicated the overall best fuel sample followed by Owukpa and then Odagbo in that order in-view of their fuel ratio, combustion efficiencies, quality of the fuel, ease of ignition and fuel burnout.

Download Full-text

Compaction as a sustainable alternative to dried sludge from poultry slaughterhouse wastewater for energy generation

Ciência Rural ◽

10.1590/0103-8478cr20200320 ◽

2021 ◽

Vol 51 (12) ◽

Author(s):

Julio Peretti da Silva ◽

Martha Andreia Brand ◽

Philipe Ricardo Casemiro Soares ◽

Matheus de Liz Salamon ◽

Taíse Mariano Rodrigues ◽

...

Keyword(s):

Energy Density ◽

Bulk Density ◽

Calorific Value ◽

Volatile Matter ◽

Proximate Analysis ◽

Charcoal Production ◽

The One ◽

Dried Sludge ◽

Pinus Spp ◽

Compressive Resistance

ABSTRACT: The generation of wastes in poultry abattoirs has increased considerably in recent years due to the growing demand for chicken meat. This fact, combined with the current need for developing new forms of renewable energy from biomass, and the lack of disposal facilities, motivated this study. We determined the technical feasibility of the barbecue charcoal production using briquettes produced with different blends containing sludge from a poultry abattoir and Pinus spp. shavings. To that end, we have mixed both residues by gradually adding 10 to 90 % of sludge in the blends, which resulted in 9 treatments containing sludge, and 1 containing only shavings. After that, we produced four briquettes of each treatment and charred them by using a heating ramp. After charring, we submitted the charcoal to the analyzes of Moisture Content (MC), Bulk Density (BD), Compressive Resistance (CR), Gross Calorific Value (GCV), and Proximate Analysis (PA). We calculated the Gravimetric Yield (GY) and the Energy Density (ED) by using the results from the other analyzes. Results showed that the CR, the GCV, the Volatile Matter (VM), and the Fixed Carbon Content (FC) of the charcoals decreased by increasing the proportion of sludge in the blends. However, the charcoals’ bulk density (BD) increased, which also increased its energy density (ED) and ash content (AC). The best blend to produce charcoal for household use was the one containing 90 % of sludge and 10 % of Pinus spp. shavings.

Download Full-text

Utilization of soybean dregs for solid fuel production through hydrothermal carbonization

Thermal Science ◽

10.2298/tsci200216292p ◽

2020 ◽

pp. 292-292

Author(s):

Nugroho Pambudi ◽

Panji Ardiyansyah ◽

Riina Syivarulli ◽

Muhammad Biddinika ◽

Mochamad Syamsiro ◽

...

Keyword(s):

Moisture Content ◽

Carbon Content ◽

Saturation Pressure ◽

Calorific Value ◽

Hydrothermal Carbonization ◽

Ash Content ◽

Holding Time ◽

Soy Sauce ◽

Volatile Content ◽

Water Ratio

Hydrothermal carbonization (HTC) is a thermochemical process used in converting biomass into a coal-like substance known as hydrochar. This is usually carried out at high temperature with water below the saturation pressure for a certain period known as holding time. The biomass used was soybean dregs, which is the residue obtained from processing soy sauce with low economic value. The aim of this study therefore was to determine the calorific value of the hydrochar produced from soybean dregs at hydrothermal carbonization temperatures of 160?C, 190?C, and 220?C and at holding times of 30 and 60 minutes, also at a temperature of 190?C with the biomass and water ratio at 1:4 and 1:5. The results showed that the highest calorific value was produced a temperature of 220?C and a holding time of 60 minutes, which was 3,866 Kcal/Kg, the highest carbon content was 26.49%, the lowest moisture content was at 1.77%, the lowest volatile content was at 62.98%, while the lowest ash content was8.64%. Considering biomass to water ratio with the holding time, the highest calorific value was at 3,546 Kcal/Kg, the highest carbon content was 20.32%, the lowest moisture content at 1.71%, the lowest volatile content was 68.58%, while the lowest ash content was at 8.37%. The highest calorific value of the hydrochar produced was similar to the calorific value standard of lignite coal which is around 3,511-4,611 Kcal/Kg according to the American Standard Testing and Mineral (ASTM).

Download Full-text

Mechanical, physical and chemical properties of saw dust briquette

World Journal of Engineering ◽

10.1260/1708-5284.12.4.347 ◽

2015 ◽

Vol 12 (4) ◽

pp. 347-352 ◽

Cited By ~ 1

Author(s):

R. Arul Kumar ◽

H. Kanaga Sabapathy ◽

I. Neethimanickam

Keyword(s):

Mass Density ◽

Testing Machine ◽

Chemical Properties ◽

Calorific Value ◽

Strength Properties ◽

Volatile Matter ◽

Proximate Analysis ◽

Shearing Strength ◽

Physical And Chemical

The present study deals with determination of physical, mechanical and combustion characteristics like mass, density, compressive strength, shearing strength, moisture content, total ash content, fixed carbon, volatile matter, gross calorific value of Sawdust briquette. Briquette quality is evaluated mainly by briquette density. Briquette density is very important from the viewpoint of manipulation, burning speed, briquette durability, etc. During our research, theoretical analyses of parameters which have an impact on briquette quality were conducted. The sawdust sample produced using super-70 piston press machine. The compression test and shear test were conducted for three sawdust sample using compression testing machine. For quality and durability evaluation of the manufactured briquette the density and strength properties were determined. To determine the calorific value and proximate analysis of the briquette using the tests carried out in the lab.

Download Full-text

Analysis mixed characterization of Kalimantan coal and mangrove wood charcoal character as briquette raw material

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/921/1/012055 ◽

2021 ◽

Vol 921 (1) ◽

pp. 012055

Author(s):

R Rahman ◽

B Azikin ◽

D Tahir ◽

S Widodo

Keyword(s):

Moisture Content ◽

Sulfur Content ◽

Calorific Value ◽

Volatile Matter ◽

Proximate Analysis ◽

Ash Content ◽

Wood Charcoal ◽

Fixed Carbon ◽

Ultimate Analysis ◽

Mangrove Wood

Abstract This study using three types of coal from East Kalimantan and South Sulawesi Mangrove Wood Charcoal which consisted of various compositions. In sample analysis using analysis, namely: proximate, ultimate, and calorific value. Proximate analysis: ash content, volatile matter, moisture content, fixed carbon; ultimate analysis: carbon and sulfur content and the calorific value using the bomb calorimeter method. The results of the proximate analysis showed that the fixed carbon content was obtained in the mixture of MWC 75% + KJA 25% = 52.45%, while the lowest was obtained at IC 100% = 32.86%; The highest volatile matter was obtained at KJA 100% = 44.23%, the lowest was at MWC 75% + KJA 25% = 31.90%, the highest ash content was IC 100% = 9.14% the lowest was at MWC 75% + KJA 25% = 5.94% and the highest moisture content was seen at IC 100% = 15.17% but MWC 75% + IC 25% = 9.52%. The results of the ultimate analysis showed that the lowest sulfur content was in the mixed variation of MWC 75% + KJA 25% = 0.168%, while the highest sulfur content was obtained at IC 100% = 0.874%. However, it was still in the low sulfur category <1. The highest calorific value is obtained by varying the composition at MWC 75% + IC 25% = 5919 cal/gram, while the lowest was obtained at KJA 100% = 4913 cal/gram. So based on this research, the addition of mangrove charcoal is very good for increasing the calorific value.

Download Full-text

Energy and resource recovery from Tetra Pak waste using hydrothermal treatment

10.31219/osf.io/buh8c ◽

2017 ◽

Author(s):

Baskoro Lokahita ◽

Fumitake Takahashi ◽

Kunio Yoshikawa

Keyword(s):

Hydrothermal Treatment ◽

Solid Fuel ◽

Calorific Value ◽

Resource Recovery ◽

Proximate Analysis ◽

Fuel Temperature ◽

High Quality ◽

Tetra Pak ◽

Fuel Characteristic ◽

Full Separation

In this study, Tetra Brik from Tetra Pak Company was used to produce solid fuel. Tetra Brik consists of paper, LDPE, and Aluminum arranged in 6 different layers. Aluminum should be recovered to obtain high-quality solid fuel. Hydrothermal treatment was used to separate aluminum from the solid fuel. Temperature and time were controlled and observed to get the best result. The temperature was varied between 200 °C and 240 °C, while time was ranged from 0 and 60 minutes. The result showed that composite of aluminum and LDPE was formed in the process, and full separation occurred in the experiment other than 200 °C in 0 minutes. Ultimate and Proximate analysis were done to understand solid fuel characteristic. As the temperature and time got higher, the calorific value also increase.

Download Full-text