• 제목/요약/키워드: stoichiometric air ratio

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Air-Fuel Ratio Control of Automobile Engines in Steady States by Neural Networks (신경회로망을 이용한 정상상태에서의 자동차 엔진의 공연비제어)

  • 최종호;원영준;고상근;노승탁
    • Transactions of the Korean Society of Mechanical Engineers
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    • v.16 no.11
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    • pp.2119-2125
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    • 1992
  • An air-fuel ratio control method is studied to keep the air-fuel ratio of the exhaust gas in the neighborhood of the stoichiometric air-fuel ratio to maximize the conversion efficiency of the three-way catalytic converter. Estimators, which estimate the air-fuel ratio of the exhaust gas, are proposed using neural networks to overcome the limit of the presently used bang-bang type exhaust gas oxygen sensor. Using these estimators, PI controller for air-fuel ratio control is designed and is experimented for an automobile engine. The proposed controller reduces the variation of air-fuel ratio of the exhaust gas from the stoichiometric air-fuel ratio by 50%-75% when compared to the existing controller.

Optimization of Anodic/cathodic Utilization for a Residential Power Generation System (가정용 연료전지 시스템의 연료/공기 이용률 최적화)

  • Seok, Donghun;Kim, Minjin;Lee, Jinho
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.05a
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    • pp.93.1-93.1
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    • 2011
  • To obtain higher power efficiency of Residential Power Generation System(RPG), it is needed to operate system on optimized stoichiometric ratio of fuel and air. In this paper, optimizing stoichiometric ratio of fuel/air is conducted through systematic experiments and modeling. Based on fundamental principles and experimental data, constraints are chosen. Using these stoichiometric ratios as decision variables, maximum power efficiency of system could be found. As a result of research, power efficiency of RPG system is improved.

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Operational Optimization of Anodic/cathodic Utilization for a Residential Power Generation System to Improve System Power Efficiency (가정용 연료전지 시스템의 전기 효율 향상을 위한 연료/공기 이용률 운전 최적화)

  • Seok, Donghun;Kim, Minjin;Sohn, Young-Jun;Lee, Jinho
    • Journal of Hydrogen and New Energy
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    • v.24 no.5
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    • pp.373-385
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    • 2013
  • To obtain higher power efficiency of Residential Power Generation system(RPG), it is needed to operate system on optimized stoichiometric ratios of fuel and air. Stoichiometric ratios of fuel/air are closely related to efficiency of stack, reformer and power consumption of Balance Of Plant(BOP). In this paper, optimizing stoichiometric ratios of fuel/air are conducted through systematic experiments and modeling. Based on fundamental principles and experimental data, constraints are chosen. By implementing these optimum values of stoichiometric ratios, power efficiency of the system could be maximized.

A Study of Characteristics of Combustion Radical and Exhausted Emissions in a Radiant Burner with Porous Ceramic Mat (다공성 세라믹 매트를 이용한 복사버너에서의 연소라디칼 특성과 배기배출물에 관한 연구)

  • Kim, Young-Su;Cho, Seung-Wan;Kim, Gyu-Bo;Chang, Young-June;Jeon, Chung-Hwan
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.31 no.6 s.261
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    • pp.539-546
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    • 2007
  • An experimental study was performed to investigate the characteristics of chemiluminescence in a radiant burner, varying the excess air ratio from 0.91 to 1.67 at firing rate 80.5 to 134.2 kW/m2 on $OH^*,\;CH^*,\;{C_2}^*$ in LNG-Air premixed flames. The signals from electronically excited states of $OH^*,\;CH^*,\;{C_2}^*$ were detected using a Intensified Couple Charged Detector (ICCD) camera. The measurements of exhausted emission were made to investigate the correlation between chemiluminescence and emissions. The chemiluminescence intensity was increased with increase of firing rate like characteristics of $NO_x$ emission. $NO_x$ also increased with increase of firing rate and excess air ratio. It is found that offset of firing rate is more dominant excess air ratio $NO_x$ emission. The maximum chemiluminescence intensity occurs near the stoichiometric excess air ratio or lean conditions in case of high firing rate and the maximum intensity occurs rather than rich conditions in case of relatively low firing rate. Amount of $NO_x$ emission is maximum at near stoichiometric excess air ratio, which is chemiluminescence intensity is maximum.

NOx Reduction Characteristics of Air Staging Burner for Pulverized-coal Combustion (공기 다단공급식 미분탄 버너의 NOx 저감 특성)

  • Park, Chu-Sik;Kim, Sung-Won;Choi, Snag-Il
    • 한국연소학회:학술대회논문집
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    • 2001.11a
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    • pp.153-160
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    • 2001
  • The combustion test used DTF was performed to obtain the characteristics of NOx emission and reduction. In this test, major factor of NOx emission was a stoichiometric air ratio. At the onset of combustion to be rich oxygen, NOx was produced rapidly. Optimum condition for NOx reduction was formed under about AR:0.7 in the combustion test of Alaska coal. Investigations were undertaken with 200KW(th) test combustor. In combustion test, the major variables were coal feed ratio of center/outer, stoichiometric air ratio at the onset of combustion. The lowest NOx emission, 182ppm(6% O2 base), was achieved at about AR:0.6 of the first combustion stage with low NOx burner. Also, unburned carbon content of char collected in this combustion condition was about 1wt%.

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Burning processes on cement manufacture (시멘트의 소성)

  • Lim Eung Keuk
    • Cement Symposium
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    • no.1
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    • pp.18-22
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    • 1973
  • A historical review of burning processes on cement manufacture has been made regarding specially to heat efficiency. In addition to these processes, two examples of stoichiometric calculation dealing with combustion such as air fuel ratio and excess air h

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A Study of $NO_x$ Reduction in Stage Combustion (단계적 연소의 $NO_x$ 저감에 대한 연구)

  • 채재우;전영남;이운영
    • Transactions of the Korean Society of Mechanical Engineers
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    • v.17 no.6
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    • pp.1556-1571
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    • 1993
  • Nitrogen oxides ($NO_x$) are air pollutants which are generated from the combustion of fossil fuels. Stage combustion is an effective method to reduce $NO_x$ emissions. The effects of $NO_x$ reduction by stage combustion in a pilot scale combustor(6.6kW) have been investigated using propane gas flames laden with NH$_{3}$ as Fuel-N. The results in this study are follows; (1) $NO_x$ emissions are dependent on the reducing environment of fuel-rich zone regardless of total air ratio. The maximum $NO_x$ reduction is at the stoichiometric ratio of 0.8 to 0.9 in the reducing zone. (2) $NO_x$ reduction is maximum when burnout air is injected at the point where the oxygen in reducing zone is almost consumed. (3) $NO_x$ reduction is dependent upon the temperature of reducing zone with best effect above 950.deg. C in the reducing zone. (4) The fuel stage combustion is more effective to reduce $NO_x$ formation in the wide range of stoichiometric ratio than two stage combustion. (5) The results of this study could be utilized mainly in a design strategy for low $NO_x$ emission from the combustion of high fuel-nitrogen in energy sources ratio than as an indication of the absolute levels of $NO_x$ which can be achieved by stage combustion techniques in large scale facilities.

Structure & operation of electronic fuel injection (전자제어식 연료분사장치의 구조와 작동)

  • 목희수
    • Journal of the korean Society of Automotive Engineers
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    • v.8 no.4
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    • pp.13-23
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    • 1986
  • The power of an international combustion engine depends on its ability to inhale air whether it is naturally aspirated or turbocharged. The use of fuel injection allows engine efficiency to be increased through a more even distribution of the air/fuel ratio throughout the engine's operation range. The theoretical value for complete combustion in an engine is commonly refered to as stoichiometric, which means that we require 14.7 parts of air to 1 part of gasoline. This stoichiometric ratio can be more closely maintained with electronically controlled fuel injection than it can with carburetion. Because of the greater efficiency of the engine using fuel injection, a horse power increase of at least 10% is produced over its carburetor version. In addition, better fuel economy and less exhaust emissions are also obtained.

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A Study on Knocking Characteristics of a 300 kW Class CNG Engine for CHP (열병합 발전용 300 kW급 천연가스 엔진의 노킹 특성 연구)

  • Kim, Chang-Gi;Kim, Young-Min;Lee, Jang-Hee;Roh, Yun-Hyun;Ann, Tae-Keun
    • Journal of the Korean Institute of Gas
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    • v.12 no.3
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    • pp.13-19
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    • 2008
  • Among the various prime movers for combined heat and power (CHP) system, the CNG engine is the most commonly used power generation equipment of which power is less than 1MW. The 300 kW class CNG engine for CHP can meet stringent emission regulations with the adoption of stoichiometric air-fuel ratio control and three way catalyst. As the thermal efficiency of the stoichiometric ratio engine is lower than that of lean burn engine, it is necessary to operate the stoichiometric engine at its minimum spark advance for the best torque (MBT). However, knock control should be introduced for the engine under high intake air temperature conditions because MBT operating conditions are generally very close to those of knock occurrence. In this study, engine performances and knocking characteristics were experimentally investigated for the CNG engine that needs to be operated at higher intake air temperature conditions than normal conditions.

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Construction of Map for Transient Condition of a Sl Engine and Refinement of Intake Air Model & Fuel Model (가솔린 엔진의 비정상 상태에 대한 Map 구성과 공기 및 연료 모델 개선)

  • 심연섭;강태성;강승표;고상근
    • Transactions of the Korean Society of Automotive Engineers
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    • v.10 no.5
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    • pp.1-8
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    • 2002
  • For gasoline engines, a three-way catalytic converter that has the maximum efficiency at stoichiometric air/fuel ratio is used to clean up the exhaust gas. So a precise air/fuel ratio control is necessary to maximize the catalytic conversion efficiency, For a transient condition, a fred-forward air/fuel ratio control method that estimates the air mass inducted into a cylinder is being used. In this study, a fuel injection map that makes an accurate air/fuel ratio control possible was constructed for the very same transient condition. For the same condition above, intake air model and fuel model were refined so that fuel injection values based on air mass through a throttle valve and intake manifold pressure are equal to the map values.