Experimental investigation of the performance of a liquid fuel-fired porous burner operating on kerosene-vegetable cooking oil (VCO) blends for micro-cogeneration of thermoelectric power

Mustafa, K. F.; Abdullah, Shahrir; Abdullah, M. Z.; Sopian, Kamaruzzaman; Ismail, Ahmad Kamal

doi:10.1016/j.renene.2014.08.061

Cited by 18 publications

(3 citation statements)

References 47 publications

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“…Experiments for both sets of burner configurations were repeated thrice to ensure the repeatability and the reliability of the measured data. For all experimental data, the mean value ( ) and the standard deviation ( ) are expressed as follows [18,19]:…”

Section: Quality Of the Experimental Datamentioning

confidence: 99%

Combustion Characteristics of Butane Porous Burner for Thermoelectric Power Generation

Mustafa

Abdullah

et al. 2015

Journal of Combustion

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The present study explores the utilization of a porous burner for thermoelectric power generation. The porous burner was tested with butane gas using two sets of configurations: single layer porcelain and a stacked-up double layer alumina and porcelain. Six PbSnTe thermoelectric (TE) modules with a total area of 54 cm2were attached to the wall of the burner. Fins were also added to the cold side of the TE modules. Fuel-air equivalence ratio was varied between the blowoff and flashback limit and the corresponding temperature, current-voltage, and emissions were recorded. The stacked-up double layer negatively affected the combustion efficiency at an equivalence ratio of 0.20 to 0.42, but single layer porcelain shows diminishing trend in the equivalence ratio of 0.60 to 0.90. The surface temperature of a stacked-up porous media is considerably higher than the single layer. Carbon monoxide emission is independent for both porous media configurations, but moderate reduction was recorded for single layer porcelain at lean fuel-air equivalence ratio. Nitrogen oxides is insensitive in the lean fuel-air equivalence ratio for both configurations, even though slight reduction was observed in the rich region for single layer porcelain. Power output was found to be highly dependent on the temperature gradient.

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Section: Quality Of the Experimental Datamentioning

confidence: 99%

Combustion Characteristics of Butane Porous Burner for Thermoelectric Power Generation

Mustafa

Abdullah

et al. 2015

Journal of Combustion

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“…A microcogeneration Stirling unit is investigated for various conditions of the working fluid by experiment and simulation [9]. Efficiency and emission properties of a liquid fuelfired vugular burner for micro-cogeneration of thermoelectric power are proposed by an experimental study [10]. An extensive literature survey of micro-cogeneration for facilities up to 100 kW consisting of working fluid imaging strategy, elements, expander choice, and detailed properties of industrial and experimental implementation is proposed [11].…”

Section: Introductionmentioning

confidence: 99%

Use of Micro-Cogeneration in Microgrids to Support Renewables

Aygül¹,

Esenboga²,

Yavuzdeger³

et al. 2019

Innovation in Energy Systems - New Technologies for Changing Paradigms

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The use of renewable energy sources has experienced great development so as to meet energy demand. With the intention of increasing the utilization of the renewable energy sources near the demand side and compensate the fluctuation of the output power, the use of micro-cogeneration systems with solar (PV) and wind energy overcomes both technical and economic barriers. Micro-cogeneration-based hybrid PV/wind energy system can get stable power output. This new energy model also improves the power quality and significantly reduces the impact of power instability on the power network. In this study, the grid-connected hybrid PV/wind energy-based micro-cogeneration system is modeled and analyzed in detail. In order to test the performance analysis of the system, seven different scenarios are analyzed during the case studies. The analysis results show that the new energy model presents effective solutions to electrical power balance because of its properties such as safety, incombustible structure, and being eco-friendly. It is aimed at providing a broad perspective on the status of optimum design and analysis for the micro-cogeneration-based hybrid PV/wind energy system to the researchers and the application engineers dealing with these issues.

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“…Invent these materials in reaction zone of burner shall enhances show significant changes in combustion performances thus making porous media burner (PMB) efficient. The main two prime advantages of enabling PM inside the burner is to generate high temperature profiles (surface and walls) and lower the counts for emission [6][7][8]. Recent study form a decade has clearly indicated the importance of porous media in burners and their key role has proven to 2…”

Section: Introductionmentioning

confidence: 99%

Experiential study on temperature and emission performance of micro burner during porous media combustion

Janvekar

Abdullah²,

Ahmad³

et al. 2018

IOP Conf. Ser.: Mater. Sci. Eng.

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Abstract. Addition of porous materials in reaction zone give rise to significant improvements in combustion performance. In this work, a dual layered micro porous media burner was tested for stable flame and emissions. Reaction and preheat layer was made up of discrete (zirconia) and foam (porcelain) type of materials respectively. Three different thickness of reaction zone was tested, each with 10, 20 and 30mm. Interestingly, only 20mm thick layer can able to show better thermal efficiency of 72% as compared to 10 and 30mm. Best equivalence ratio came out to be 0.7 for surface and 0.6 for submerged flame conditions. Moreover, emission was continuously monitored to detect presence of NOx and CO, which were under controlled limits.

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Experimental investigation of the performance of a liquid fuel-fired porous burner operating on kerosene-vegetable cooking oil (VCO) blends for micro-cogeneration of thermoelectric power

Cited by 18 publications

References 47 publications

Combustion Characteristics of Butane Porous Burner for Thermoelectric Power Generation

Combustion Characteristics of Butane Porous Burner for Thermoelectric Power Generation

Use of Micro-Cogeneration in Microgrids to Support Renewables

Experiential study on temperature and emission performance of micro burner during porous media combustion

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