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정진은(Jin-Eun Chung),진영욱(Youngwook Jin),강우(Woo Kang),정재우(Jae-Woo Chung),강정호(Jeong-Ho Kang) 한국자동차공학회 2005 한국자동차공학회 춘 추계 학술대회 논문집 Vol.2005 No.11_1
A test bench which is consisted of blower, heater, air flow meter, driving unit for electric EGR valve, and cooling system for EGR cooler was developed to evaluate the characteristics of the modulated EGR valve. Measurements using EGR valve of the 2.0 L diesel engine were carried out. For this valve, the relation between duty signal and valve lift shows non-linearity and hysteresis phenomenon, and the response time at opening is 84.2 ms. The mass flow rate through the valve is almost zero under 40% duty and is increased according to the duty signal between 40% to 60% duty. For more than 60% duty, the mass flow rate is dependent only the pressure difference. The maximum ratio of the effective area is 0.55. For the over 60% duty the effective area is almost constant and independent of the mass flow rate, but it is decreased as the mass flow rate increases for between 40% and 60% duty. These data will be used to develop the new engine using the modulated EGR and VGT system.
정진은(Jin-Eun Chung),진영욱(Youngwook Jin),강우(Woo Kang),정재우(Jae-Woo Chung),강정호(Jeong-Ho Kang) 한국자동차공학회 2006 한국자동차공학회 춘 추계 학술대회 논문집 Vol.- No.-
An attempt was made to estimate the EGR mass flow rate as a function of sensor signals flowing into ECU of current or future production engines. The EGR estimation model is comprised of the thermal-fluid governing equations for the engine components constituting the EGR loop, which are solved given the ECU signal variables. The model equations were completed once the model coefficients were extracted from the curve-fitting to the engine or rig test results. The preliminary model results successfully reproduced the trend of the measured EGR mass flow rate but consistently showed a slightly lower estimation which will be the point of the future improvement.
정진은(Jin Eun Chung),진영욱(Youngwook Jin),조훈기(Hungi-Cho),강우(Woo Kang),정재우(Jae Woo Chung) 한국자동차공학회 2007 한국자동차공학회 지부 학술대회 논문집 Vol.- No.-
A test bench which is consisted of roots blower, pulsator, air flow meter, driving unit for VGT actuator, transmitters for temperature and pressure, and the rotational speed sensor was developed to evaluate the characteristics of the VGT system. Measurements using VGT of the 2.0 L diesel engine were carried out. The corrected mass flow rate and the pressure ratio for the compressor of the VGT are related directly with the rotational speed, but they are independent of the rack position of the VGT. The pressure ratio and the corrected mass flow rate of the turbine of the VGT are related directly with the rack position of the VGT, but they don’t have any relation with the rotational speed. The mechanical efficiency of the VGT is higher than the conventional turbocharger in the wide range. The efficiency at the 0.03 kg/s of the mass flow rate is 4.36 times as high as that of the conventional turbocharger. These data will be used to develop the new engine equipped with the VGT system.
HIL을 이용한 터보과급기 승용 디젤 엔진의 과도 성능 예측
정진은(Jin-Eun Chung),진영욱(Youngwook Jin),정동영(Dong-young Jeong),정재우(Jae-Woo Chung) 한국자동차공학회 2009 한국 자동차공학회논문집 Vol.17 No.5
The transient performance of the passenger diesel engine equipped with the variable geometry turbocharger was simulated using HIL(hardware-in-the-loop) system. The system consists of engine model as software, and the turbocharger test bench as hardware. The engine model is mean value model which is programmed by the Simulink of the Mathworks. The turbocharger test bench is composed of a blower, some sensors, and DAQ boards. A real time simulation is possible since the operating system based on the real time is included. The results show the good response for the transient characteristics. Therefore this HIL system can be used for development of the new turbocharger effectively.
정진은(Jin-Eun Chung),진영욱(Youngwook Jin),조훈기(Hunki Cho),강우(Woo Kang),정재우(Jae-Woo Chung),강정호(Jeong-Ho Kang) 한국자동차공학회 2006 한국자동차공학회 춘 추계 학술대회 논문집 Vol.- No.-
A test bench which is consisted of roots blower, air flow meter, driving unit for VGT actuator, transmitters for temperature and pressure, and the rotational speed sensor was developed to evaluate the characteristics of the VGT system. Measurements using VGT of the 2.0 L diesel engine were carried out. The corrected mass flow rate and the pressure ratio for the compressor of the VGT are related directly with the rotational speed, but they are independent of the rack position of the VGT. The pressure ratio and the corrected mass flow rate of the turbine of the VGT are related directly with the rack position of the VGT, but they don't have any relation with the rotational speed. The mechanical efficiency of the VGT is higher than the conventional turbocharger in the wide range. The efficiency of the VGT at the 0.03 ㎏/s of the mass flow rate is 4.36 times as high as that of the conventional turbocharger. These data will be used to develop the new engine equipped with the VGT system.
허준영(Junyoung Huh),정진은(Jin-Eun Chung),진영욱(Youngwook Jin),강우(Woo Kang),정재우(Jae-Woo Chung) 한국자동차공학회 2008 한국 자동차공학회논문집 Vol.16 No.4
In diesel engine technology the drive to reduce emissions and fuel consumption with improved performance targets has led to many advances. In particular, Exhaust Gas Recirculation (EGR) and Variable Geometry Turbocharger (VGT) have played a key role in achieving these aims by permitting flexible control of the engine inlet gas charge. The full potential of these devices are difficult to achieve due to limitations in the classical control methods. However, fuzzy logic is particularly appealing due to its simple heuristic nature. The controller used in this work was designed using the Matlab Fuzzy Logic Toolbox. The overall object is to access the potential for emissions and fuel consumption reductions during transient events whilst maintaining and even improving driveability. Classical control methods (PID), as used on production engines, are examined and contrasted with an coordinated control that utilizes fuzzy logic.
김진용(Jinyong Kim),나병철(Byungchul Na),서준호(Joonho Seo),박승욱(Seunguk Park),진영욱(Youngwook Jin),최승배(Seungbae Cho) 한국자동차공학회 2006 한국자동차공학회 춘 추계 학술대회 논문집 Vol.- No.-
Recently social awareness on environmental issues including air pollution has been raised, and related laws and regulations have been reinforced. In the circumstances, the development of common rail diesel engine has been progressed, which can correspond with EURO IV & V and has low-noise, strong-power and excellent fuel efficiency. This research aims to develop parts for Advanced Fuel/Oil Filtering Re-circulation applicable to this kind of regulation proof engines. These parts can playa role of converting traditional air emission type crankcase into recovery type crankcase so that the engine can deal with environmental regulations, which do not allow minimal amount of toxic gas discharge.