Thermal performances and CO emissions of gas-fired cooker-top burners

Li, H.B.; Wong, T. T.; Leung, Chun Wah; Probert, S.D.

doi:10.1016/j.apenergy.2006.03.002

Cited by 43 publications

(22 citation statements)

References 21 publications

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“…However, there is a different method for temperature rise determination of the water inside the vessel to the method in SNI 7369:2011. In this case, the water was heated through a 50 o C temperature rise (from 30 o C to 80 o C) (Ko and Lin, 2003;Hou, Lee and Lin, 2007;Li, Wong, Leung and Probert, 2006).…”

Section: Basic Theorymentioning

confidence: 99%

An Evaluation of Heat Input and Efficiency Test Method Based on Sni 7368:2011 – Single Burner LPG Gas Stove With Igniter System

Utomo

Kusnandar

Ramadhani³

et al. 2019

j. standard.

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Heat input and efficiency test are one of the essential aspects that should be assessed in order to m e a s u re th e energy performance of LPG gas stove. In order to do this, the method e mployed to assess these performance aspects should meet the requirement of the energy test procedure. This paper presents the evaluation o f e n e rg y performance test method of SNI 7368:2011a standard for single gas stove LPG in order to meet energy test procedure criteria. The method of evaluation is conducted through interpersonal comparative test according to BS EN ISO/IEC 17043:2010 -Conformity assessment -General requirements for proficiency testing. Two parameters of z-score and z-robust are used as criteria for the assessment of method evaluation. The result shows that both z-score and z-robust give the same result at satisfactory performance for heat input aspect, while the different performance criteria emerge in the efficiency aspect. The z-score of efficiency aspect gives satisfactory performance, whereas a questionable performance is yielded by z-robust. The further analysis of zrobust brings to the concern about inconsistency relation result between temperature rise, consumption of gas and the test duration. The lack of a method for ensuring the composition of gas during the test in the SNI is identified as a factor that may lead to such an inconsistent result. AbstrakPengajuan asupan panas dan efisiensi adalah salah satu aspek penting yang harus dinilai untuk mengukur kinerja energi kompor gas LPG. Untuk melakukan ini, metode yang digunakan untuk men il a i a sp e k k i ne rj a i n i harus memenuhi persyaratan prosedur uji energi. Makalah ini menyajikan evaluasi metode uji kinerja energi SN I 7368: 2011 -standar untuk LPG kompor gas tunggal untuk memenuhi kriteria prosedur uji energi. Metode evaluasi dilakukan melalui uji komparatif interpersonal menurut BS EN ISO / IEC 1 7043: 2010 -Penilaian kesesuaian -Persyaratan umum untuk pengujian kecakapan. Dua parameter z -score dan z-rob ust digunakan seb agai kriteria untuk penilaian evaluasi metode. Hasil menunjukkan b ahwa b aik z -score dan z-rob ust memberikan hasil yang sama pada kinerja yang memuaskan untuk aspek input panas, sedangkan k i n erj a ya n g b erb eda dihasilkan dari aspek efisiensi. Z-score dari aspek efisiensi memb erikan kinerja yang memuaskan, sedangkan kinerja yang dipertanyakan dihasilkan oleh z -robust. Analisis lebih lanjut dari z-rob ust me mu ncu l kan perhatian tentang hub ungan yang tidak konsisten dari hasil antara kenaikan suhu, konsumsi gas, dan durasi pengujian. Kurangnya metode untuk memastikan komposisi gas selama pengujian dalam SNI diidentifikasi seb agai faktor yang dapat menyebabkan hasil yang tidak konsisten terseb ut.Kata kunci: asupan panas, efisiensi, kinerja, pengujian energi, kompor gas satu tungku 1.

show abstract

Section: Basic Theorymentioning

confidence: 99%

An Evaluation of Heat Input and Efficiency Test Method Based on Sni 7368:2011 – Single Burner LPG Gas Stove With Igniter System

Utomo

Kusnandar

Ramadhani³

et al. 2019

j. standard.

View full text Add to dashboard Cite

show abstract

“…The exhaust gas (CO emission) from a combustion system is an important property of a flame [53,54]. The emission of the exhaust gas of an impinging flame on the V-shaped burner might differ greatly from that of the same tested condition (equivalence ratio and mixture velocity) because of the altered flame structure, chemical reaction and fluid dynamics.…”

Section: Chemiluminescence Intensitymentioning

confidence: 99%

Combustion characteristics of premixed propane flame with added H 2 and CO on a V-shaped impinging burner

Chen

Chiu

et al. 2015

International Journal of Hydrogen Energy

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“…They found that when higher heating value natural gas is used for the burner designed for low heating value, the thermal efficiency decreases and the CO emissions increase. Li et al [9] have studied the thermal efficiency and emissions characteristics of LPG fired burner stove for varying Reynolds number, equivalence ratio, inter-hole spacing and heating heights. They found that the thermal efficiency decreases continuously, in a constant manner, with the increase in the Reynolds number while the emissions peak up at the intermediate Reynolds number.…”

Section: Introductionmentioning

confidence: 99%

An experimental and numerical investigation of heat transfer distribution of perforated plate burner flames impinging on a flat plate

Hindasageri

Kuntikana

Vedula

et al. 2015

International Journal of Thermal Sciences

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Thermal performances and CO emissions of gas-fired cooker-top burners

Cited by 43 publications

References 21 publications

An Evaluation of Heat Input and Efficiency Test Method Based on Sni 7368:2011 – Single Burner LPG Gas Stove With Igniter System

An Evaluation of Heat Input and Efficiency Test Method Based on Sni 7368:2011 – Single Burner LPG Gas Stove With Igniter System

Combustion characteristics of premixed propane flame with added H 2 and CO on a V-shaped impinging burner

An experimental and numerical investigation of heat transfer distribution of perforated plate burner flames impinging on a flat plate

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