Energetic performance of landfill and digester biogas in a domestic cooker

Grima-Olmedo, Carlos; Ramírez-Gómez, Álvaro; Alcalde-Cartagena, R.

doi:10.1016/j.apenergy.2014.08.032

Cited by 21 publications

(3 citation statements)

References 35 publications

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“…159 Grima-Olmedo et al. 160 mentioned that the minimum pressure supply for biogas is 20 mbars while that of the domestic cooker is 20 mbars. The gas consumption rating for biogas stove is 1 m 3 (19 MJ/h).…”

Section: Applications Of Biogasmentioning

confidence: 99%

Anaerobic digestion: Technology for biogas production as a source of renewable energy—A review

Obileke

Nwokolo

Makaka

et al. 2020

Energy & Environment

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The authors reviewed the future prospects and previous studies on anaerobic digestion technology for biogas production and highlight the solutions to problems relating to construction and maintenance of biogas digesters, which can now be accessed in a single paper. It is the aim of the review to provide insight into the use, process and application of anaerobic digestion as an appropriate technology for biogas production from peer reviewed literature. Recent studies have shown that the microbial communities and metabolic pathways involves in anaerobic digestion are influenced by temperature. Their metabolic activities increase significantly with increase in temperature. Therefore, the findings of the review reveal that temperature is a major parameter for biogas production due to its influence on metabolic activities involved in anaerobic digestion. Hence, there is the need for insulation as well as external heating to maintain temperature stability and to avoid temperature fluctuations. More also, the anaerobic digestion technology for production of biogas is a viable option that can supplement as well as reduce the usage of non-renewable energy sources such as fossil fuel. The detailed information addressed in this study would increase biogas energy mix as well as mitigating climate change. Therefore, the study recommends the use of biogas as a clean energy for the purpose of power generation, cooking and heating.

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Section: Applications Of Biogasmentioning

confidence: 99%

Anaerobic digestion: Technology for biogas production as a source of renewable energy—A review

Obileke

Nwokolo

Makaka

et al. 2020

Energy & Environment

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“…This study searched for relevant articles published between January 2012 and May 2023 in common databases, including Web of Science (Core Collection), Scopus, Wiley, Springer, and Science Direct. To retrieve the documents and to include all studies in the field of thermal performance of domestic gas stoves, the following search string was constructed and entered into the above databases: (stove) OR (cooker) OR (cooktop) LPG a comparison of the performance differences between a novel porous radiant burner and a conventional burner experimental Zhang et al 50 NG effect of changes in natural gas composition on the stove's performance experimental Zhen et al 28 LPG developed and compared the performance of two different swirling burners experimental Chen et al 51 PNG/ LNG flame stability of partially premixed combustion for PNG/LNG interchangeability experimental Wu et al 52 CH 4 research on porous metal burners for domestic gas stoves experimental Grima-Olmedo et al 53 biogas comparison of the stove's thermal performance using landfill and digester biogas experimental Boggavarapu et al 21 LPG/NG improving the stove's thermal performance by installing a circular insert and a radiant sheet experimental and numerical Mishra et al 40 LPG performance of a double-layer PMB in the LPG cooker experimental Keramiotis et al 41 NG performance of a PMB using natural gas experimental Iral and Amell 54 NG performance study of a domestic porous radiant burner at high altitude experimental Zhang et al 55 NG effect of variations in the natural gas component on the primary air coefficient for domestic gas stoves experimental and analytical O ̈zdemir and Kantaş5 6 CH 4 effect of operating conditions and design characteristics of a stove on the combustion performance experimental and numerical Laphirattanakul et al 39 LPG effect of porosity geometry on the stability of porous radiant burners general Panigrahy et al 57 LPG combustion performance of a domestic LPG cooker with PMB experimental and numerical Fumey et al 58 H 2 development of a novel gas stove based on catalytic hydrogen combustion experimental Zhen et al 59 CH 4 /H 2 effect of air preheating on the visual, thermal, and emission characteristics of HENG experimental and theoretical Laphirattanakul et al 33 LPG effect of a central cone-shaped bluff-body on the combustion performance of a domestic gas burner numerical Mishra and Muthukumar 60 LPG development of a self-aspirating LPG cooking stove with a two-layer porous radiant burner experimental De Vries et al 61 HENG interchangeability analysis for domestic appliances using HENG fuels theoretical and analytical Zhou et al 62 NG combustion performance of a domestic gas stove at different altitudes exp...…”

Section: Methodsmentioning

confidence: 99%

Comprehensive Review on Thermal Performance Enhancement of Domestic Gas Stoves

Gao

Yan

et al. 2023

ACS Omega

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Cooking is a daily activity in every household, which consumes energy and produces pollution. Using clean gas fuels instead of traditional solid fuels will significantly reduce household air pollution. Although the use of clean-burning burners can reduce emissions, early domestic gas cookers had poor thermal performance. Currently, even small improvements in efficiency can result in significant energy savings due to the large number of domestic gas stoves in use. There has been a long history of research into the development of domestic gas stoves to improve performance and reduce energy consumption. Meanwhile, research into the use of hydrogen-enriched natural gas as a promising environmentally friendly fuel is increasing. In this paper, we perform a descriptive statistics and graphical visualization of network analysis by combining common databases with Bibliometrix. We also analyze the energy balance of domestic gas stoves and the influence of a single factor and multiple factors on stove performance. Then we provide a detailed overview of some research technologies in enhancing the thermal performance of gas stoves. We also discuss the research progress and application prospects for the use of hydrogen-enriched natural gas as a fuel in domestic gas stoves and identify areas for future research and issues that need attention.

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“…Semakin besar pressure drop maka semakin kecil tekanan yang diterima kompor. Penelitian Grima-Olmedo dkk (2014) menunjukkan bahwa tekanan optimal LFG (landfill gas) untuk menghasilkan energetic performance terbesar yaitu 10 mbar [7].…”

Section: Pendahuluanunclassified

Analisis Pressure Drop pada Jaringan Pipa Pelanggan Biogas di TPA Supiturang Kota Malang

Miyarthaluna¹,

Hantoro²

2018

JTITS

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Energetic performance of landfill and digester biogas in a domestic cooker

Cited by 21 publications

References 35 publications

Anaerobic digestion: Technology for biogas production as a source of renewable energy—A review

Anaerobic digestion: Technology for biogas production as a source of renewable energy—A review

Comprehensive Review on Thermal Performance Enhancement of Domestic Gas Stoves

Analisis Pressure Drop pada Jaringan Pipa Pelanggan Biogas di TPA Supiturang Kota Malang

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