Relationship between proximate analysis parameters and combustion behaviour of high ash Indian coal

AbstractThis work presents the analysis of combustion characteristics of high ash Indian coal (28%–40%) collected from different mines of Singaurali coalfield, India. All the coal samples were characterized by proximate and gross calorific value analysis. Combustion performance of the coals were characterised using thermo-gravimetric analysis to identify the burning profile of individual coals. Various combustion kinetic parameters such as ignition temperature, peak temperature and burnout temperature, ignition index and burnout index, combustion performance index plus rate and intensity index of combustion process, activation energy were determined to analyse the combustion behaviour of coal. Further all these combustion properties were compared with the volatile matter, ash, fixed carbon and fuel ratio of each coal. Theoretical analysis shows that with increase in ash content, combustion performance initially increases and later descends. Further, coal with (25 ± 1.75)% volatile matter, 20%–35% ash and fuel ratio 1.4–1.5 were found to be optimum for coal combustion.

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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.

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Analysis of the efficiency of a solid fuel boiler depending on the choice of combusted fuel

E3S Web of Conferences ◽

10.1051/e3sconf/202015402003 ◽

2020 ◽

Vol 154 ◽

pp. 02003

Author(s):

Grzegorz Pełka ◽

Wojciech Luboń ◽

Przemysław Pachytel

Keyword(s):

Energy Efficiency ◽

Solid Fuel ◽

Combustion Process ◽

Calorific Value ◽

Volatile Matter ◽

Ash Content ◽

Solid Fuels ◽

The Real ◽

Residential Sector

In the municipal and residential sector in Poland, as many as 50% of households are heated by solid fuel boilers. Most often these are, unfortunately, inefficient boilers, fired with low-quality coal. This study characterizes the market of boilers for solid fuels in Poland, and also presents the main apportionment of these devices, due to the different criteria that characterize them. The current legal changes in the scope of energy and emission requirements for solid fuel boilers are also discussed. The main purpose of this work is to analyze the real efficiency of the solid fuel over-fired boiler used, depending on the fuel burned in it. The process of burning selected fuels (seasoned wood, coal and pea coal) in the boiler was preceded by tests of these fuels to determine their energy parameters, such as moisture, ash content, the share of volatile matter and calorific value. In the next step, the energy efficiency obtained by the tested solid fuel boiler during the combustion of selected solid fuels was compared. The highest efficiency was achieved during the combustion of pea coal, and the lowest was achieved during the combustion of wood. In any case, the nominal efficiency value was achieved. Solutions that could improve the quality of the combustion process in this type of boiler were proposed.

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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.

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Combustion properties of cotton fabric treated by boron doped silica sol

Thermal Science ◽

10.2298/tsci1504345z ◽

2015 ◽

Vol 19 (4) ◽

pp. 1345-1348 ◽

Cited By ~ 1

Author(s):

Qiang-Hua Zhang ◽

Wei Zhang ◽

Guo-Qiang Chen ◽

Tie-Ling Xing

Keyword(s):

Cotton Fabric ◽

Sol Gel ◽

Thermo Gravimetric Analysis ◽

Silica Sol ◽

Gravimetric Analysis ◽

Excellent Thermal Stability ◽

Pure Silica ◽

Boron Doped ◽

Smoke Density ◽

Combustion Properties

Cotton fabric was treated with pure silica sol and boron doped partner through sol-gel method in order to improve its thermal and combustion properties. The results of thermo-gravimetric analysis, micro combustion calorimeter, and smoke density test of control showed that the finished cotton fabric had excellent thermal stability and mild combustion behavior with lower heat release rate. Furthermore, the smoke density test also indicated the safety performance of the boron doped silica sol treated cotton fabric in the fire.

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Utilization of Refuse Derived Fuel for Energy Recovery Processes: Prediction of Environmental Emissions and Thermal Behaviour in Combustion Processes

10.21203/rs.3.rs-256550/v1 ◽

2021 ◽

Author(s):

Deepak Kumar Singhal ◽

Divya Gupta ◽

Anurag Garg

Keyword(s):

Power Plants ◽

Combustion Process ◽

Calorific Value ◽

Environmental Parameters ◽

Fuel Mixture ◽

Gravimetric Analysis ◽

Recovery Processes ◽

Refuse Derived Fuel ◽

Environmental Emissions ◽

Msw Composition

Abstract In the present study, the environmental emissions from co-combustion of refuse derived fuel (RDF) in cement plants and coal-fired power plants are predicted using mass and energy flow modeling. Mumbai was considered as study area and RDF characteristics were assessed using MSW composition in Mumbai. The modeling results suggested that with increase in RDF share in fuel mixture, significant reduction in environmental parameters such as winter smog, global warming and acidification potentials could be achieved, though the electricity and heat generation were reduced. This problem can be overcome by improving the quality of RDF. Moreover, thermal gravimetric analysis (TGA) of individual RDF components (compostable organic matter, paper, wood and plastic) was carried out in oxidative environment to understand their thermal stability. Average activation energies for plastic, wood and compostable organics (98.6–183 kJ/mol) were comparable to those reported for coal. The results suggest that coal and RDF co-combustion should not affect the combustion profile. Moreover, high plastic content in RDF can assist in control of combustion process and also can enhance its calorific value.

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Effect of Wastewater Treatment Processes on the Combustion Properties of Sewage Sludge

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.113-116.1153 ◽

2010 ◽

Vol 113-116 ◽

pp. 1153-1157

Author(s):

Li Ping Xie ◽

Xia Wu

Keyword(s):

Wastewater Treatment ◽

Anaerobic Digestion ◽

Heating Rate ◽

Reaction Mechanisms ◽

Combustion Process ◽

Combustion Reaction ◽

Gravimetric Analysis ◽

Wastewater Treatment Process ◽

Combustion Properties ◽

Combustion Atmosphere

The combustion properties of five different sewage sludges were studied by thermal gravimetric analysis in the atmosphere of “oxygen”and “nitrogen + oxygen”, respectively. The results indicate that there are not influence of wastewater treatment process and the sludges anaerobic digestion on the combustion process, but both of the “anaerobic” wastewater treatment and the sludge anaerobic digestion make the ignition temperature of sludge higher, and the temperature of anaerobic digestion sludge is the highest. The relationship among the ignition temperatures of five sludges is independent of combustion atmosphere and heating rate. However, low heating rate makes the temperature of sludge decline. The combustion reaction mechanisms have been studied with Šatava-Šesták equation. It shows that there are the same combustion reaction mechanisms for five sludges in the same atmosphere, and the heating rate hasn’t influence on them, but the combustion atmosphere has influence on them.

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Synthesis of LNF Nano Particles for Fuel Cell Applications

MRS Proceedings ◽

10.1557/proc-1230-mm06-08 ◽

2009 ◽

Vol 1230 ◽

Author(s):

Reza Bateni ◽

Maryan Nasirpour ◽

Olivera Kesler

Keyword(s):

Ph Value ◽

Thermo Gravimetric Analysis ◽

Combustion Process ◽

Precursor Solution ◽

Nano Particles ◽

Process Efficiency ◽

Molar Ratio ◽

Gravimetric Analysis ◽

Metallic Ions ◽

X Ray

AbstractThe aim of the present work is to understand the effect of different parameters such as the molar ratio of metallic ions to fuel in sol-gel solution, pH of the solution, and calcining temperature on the efficiency of the combustion synthesis technique in preparing submicron lanthanum nickel ferrite using metal nitrate-citrate/glycine mixtures. Scanning electron microscopy (SEM) coupled with energy-dispersive X-ray spectroscopy (EDS) was used to evaluate the powder morphology and elemental composition. The crystal structure of the calcined powders was evaluated by X-ray diffraction (XRD) and the thermal characteristics of the LNF precursors were examined by thermo-gravimetric analysis (TGA) in air, to identify suitable processing conditions. It was found that by increasing the molar ratio of fuel to metallic ions in the precursor solution, calcining could take place at lower temperatures. However, by increasing the molar ratio of fuel to metallic ions, the yield of the combustion process was decreased. Furthermore, the pH value of the precursor solution did not have any influence on the process efficiency over the range examined.

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Characterization and Utilization of Char Derived from Fast Pyrolysis of Plastic Wastes

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.931-932.849 ◽

2014 ◽

Vol 931-932 ◽

pp. 849-853 ◽

Cited By ~ 3

Author(s):

Jindaporn Jamradloedluk ◽

Chaloenporn Lertsatitthanakorn

Keyword(s):

Surface Area ◽

Pore Volume ◽

Fast Pyrolysis ◽

Combustion Process ◽

Calorific Value ◽

Volatile Matter ◽

Bet Surface Area ◽

Activation Process ◽

Specific Pore Volume ◽

Plastic Wastes

HDPE plastic wastes were fast pyrolyzed at temperature of 400-450°C and char (solid residues) obtained were collected and analyzed. Proximate and ultimate analyses showed that pyrolysis char had a large amount of volatile matter (51.40%) and fixed carbon (46.03%), small amount of moisture (2.41%) and little amount of ash (0.16%). Contents of carbon, hydrogen, nitrogen, and sulfur were found to be 42.65, 3.06, 0.43%, and 1.80%, respectively. Calorific value and density of the char were also determined and reported as 4,500 cal/g and 1.59 g/cm3, respectively. Char derived from the fast pyrolysis of HDPE plastic wastes was crushed into powder and extruded to produce briquettes. One kilogram of the char based briquette was used as a fuel for the combustion process (boiling water). Atmospheric-pressure thermal activation at 900°C for 3 hours was performed to promote surface area and specific pore volume of the char. Undergoing such an activation process, BET surface area and pore volume of the char were increased by 55% and 44% whereas pore size was reduced by 5%, corresponding to the values of 16.77 m2/g, 0.2080 cm3/g and 496 Å, respectively.

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ENERGY DENSITY MODEL FOR FOREST SPECIES FROM CERRADO

Revista Caatinga ◽

10.1590/1983-21252018v31n216rc ◽

2018 ◽

Vol 31 (2) ◽

pp. 396-404 ◽

Cited By ~ 1

Author(s):

CARLOS JOSÉ DA SILVA ◽

AILTON TEIXEIRA DO VALE

Keyword(s):

Energy Density ◽

Basic Density ◽

Calorific Value ◽

Volatile Matter ◽

Forest Species ◽

Value Analysis ◽

Underdeveloped Countries ◽

Average Value ◽

Proposed Model ◽

Immediate Analysis

ABSTRACT Wood is the main source of energy in the energy matrix of underdeveloped countries, in addition to having a significant participation in developing countries, ranking fourth in Brazil. Thus, this study aimed to determine a model for determining the energy density of forest species from the Cerrado. Samples of trunks and branches were collected from 34 forest species in an area of 10.15 ha located in the Cerrado region aiming for immediate analysis, i.e. the contents of ashes (ASH), volatile matter (VM), fixed carbon (FC), and higher calorific value (HCV). Data from dry and saturated mass were obtained in order to determine the basic density. The species presented values of VM ranging from 77 to 85.5%, ASH from 0 to 1%, FC from 14 to 23%, and HCV ranging from 18,282 to 20,121 GJ ton-1. A significant relationship was found between VM and FC (R2 = 0.9927) whereas no significant values were found between HCV and basic density. The average value of energy density considering the 34 species was 12,459 Mcal m-3. The estimated energy density of the area was 1,378,541 Mcal ha-1. The proposed model for calculating the energy density as a function of basic density favors energy surveys of areas to be explored since there is no need for calorific value analysis.

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Effect of Fuel Material Compositions on Combustion Properties of Wood Chips from Smallhold Farm Plots in a Sudano-Sahelian Environment of Nigeria

Current Journal of Applied Science and Technology ◽

10.9734/cjast/2020/v39i230502 ◽

2020 ◽

pp. 93-104

Author(s):

O. A. Sotannde ◽

A. M. Dadile ◽

M. Umar ◽

S. M. Idoghor ◽

B. D. Zira

Keyword(s):

Moisture Content ◽

Tree Species ◽

Calorific Value ◽

Volatile Matter ◽

Wood Chips ◽

Fixed Carbon ◽

Gross Calorific Value ◽

Energy Value ◽

Combustion Properties ◽

Fuel Material

Aims: The study explored the combustion properties of woods and barks of some selected trees and the mixtures of the two in order to map out how fuel material composition affect the combustion properties of biomass materials. Study Design: The study is a two-factor factorial experiment in a completely randomized design. The main factors are the tree species and fuel material types. Place and Duration of Study: Tree samples used for this study were coppiced stems harvested from smallhold farm plots along the Damaturu - Gujba fuelwood corridors in Yobe State. The analytical study was carried out in Wood and Fibre Science Laboratory of the Department of Forestry and Wildlife, University of Maiduguri, Nigeria between April 2018 and December 2019. Methodology: Ten tree species were used for this study. Each species was replicated 3-times, making a total of 30 stems with their dbh between 10 and 15 cm. A sample billet of 20 cm log was cut from each stem at 10 cm below and above dbh. Each billet was debarked, chipped separately and dried to approximately 12% moisture content. From the chips, 100% wood, 95%W-5%B, 90%W-10%B and 100% bark fuel material samples were created, grinded with mechanical grinder and sieved to approximately 0.4 mm particle size based on ASTM D2013-86. The sieved samples obtained were then analyzed for their percentage moisture content, volatile matter, fixed carbon, ash and gross calorific values using ASTM standard methods. The data obtained were subjected to Analysis of variance from which % variance component and LSD were computed α = 0.05 and 0.01 level of significance. Results: All the measured parameters varied significantly among the tree species and the compositions of the fuel materials obtained from them. Majority of the variation in the fuelwood properties were attributed to the composition of the fuel materials obtained from the trees rather than the species they were made of. On the average, moisture content of the samples ranged from 27.66 to 40.44%, volatile matter (61.38 to 75.11%), ash (0.52 to 2.42%), fixed carbon (24.19 to 36.20%) and gross calorific value (32.99 to 33.02 MJ.kg-1). The moisture and ash contents of the fuel materials obtained from all the tree species increased with the level of bark inclusion whereas, volatile matter content and gross calorific values decreased significantly with level of bark inclusion (P < 0.05). Also, gross calorific value of the fuel materials correlates positively with volatile matter and fixed carbon contents. But, correlate negatively with moisture and ash contents. Among the studied tree species, chips obtained from A. leiocarpus had the highest energy value, followed by C. arereh and B. aegyptiaca while P. reticulatum, A. sieberiana and C. lamprocarpum had the least energy value in that order. Conclusion: Based on their energy value and ash content, minimizing the bark content in wood chips is important from energy and environment point of view. Therefore, chips with 100% wood and those with 5% bark inclusions are recommended for heat generation.

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