An interdisciplinary review on calibration strategies of engine management system for diverse alternative fuels in IC engine applications

Abstract As the vehicle technology evolves and becomes more complex, the ability to monitor certain uncontrollable factors is possible through various engine management system calibration methods. Additionally, different optimization approaches assist in improving engine output characteristics. Advances in fuel production from unique feedstocks have paved a way for the introduction of innovative flex-fuel engines. These engines are made multi-fuel adaptive by utilizing appropriate calibration and optimization approaches. Since numerous researches have been carried out in internal combustion engine calibration, operating on alternative fuels, it is quite hard to maintain a record for this wealth of information. Therefore to bridge this issue, this study intends to organize and provide the reader with a retrospective view of selective studies undergone in the field of engine calibration using different tuning techniques. The objective of this study is to assist engine calibration enthusiasts on selecting an apt engine calibration technique for their application which can be flexible for multiple fuel types. Studies revealed that model-based calibration assisted by Gaussian process modelling and Design of Experiment application is adequate for calibrating an engine operating on alternative fuels. Additionally, calibration methodologies followed for certain fuel types and compositions are highlighted in detail. Furthermore, an advanced calibration methodology is proposed for flex-fuel engines in this study based on the knowledge gained through the preparation of this article. To further enhance accuracy, complex optimizers like neural networks can be used in the proposed methodology to initiate real-time calibration for ideal flex-fuel engine output responses.

[1]  Carlo Alberto Rinaldini,et al.  Experimental investigation on a Common Rail Diesel engine partially fuelled by syngas , 2017 .

[2]  George Saikalis,et al.  AUTOMATIC ON-LINE TUNING OF THE KNOCK DETECTION SYSTEM ON AN ECU , 2006 .

[3]  Jin Seo Park,et al.  The Study of AUTOSAR Communication for Automotive Requirement , 2015 .

[4]  W.J. Fleming,et al.  New Automotive Sensors—A Review , 2008, IEEE Sensors Journal.

[5]  S. Pischinger,et al.  Improving engine efficiency and emission reduction potential of HVO by fuel-specific engine calibration in modern passenger car diesel applications , 2017 .

[6]  R. Sakthivel,et al.  Optimization of compression ignition engine fueled with diesel - chaulmoogra oil - diethyl ether blend with engine parameters and exhaust gas recirculation , 2019, Renewable Energy.

[8]  M. Battistoni,et al.  Experimental Investigation of a Port Fuel Injected Spark Ignition Engine Fuelled with Variable Mixtures of Hydrogen and Methane , 2013 .

[9]  Hugh Blaxill,et al.  Improving Base Engine Calibrations for Diesel Vehicles Through the Use of DoE and Optimization Techniques , 2005 .

[10]  Xavier Tauzia,et al.  Semi-physical models to assess the influence of CI engine calibration parameters on NOx and soot emissions , 2017 .

[11]  K. Sureshkumar,et al.  Data set of multi-objective optimization of diesel engine parameters , 2019, Data in brief.

[12]  Amir H. Shamekhi,et al.  Investigating a new model-based calibration procedure for optimizing the emissions and performance of a turbocharged diesel engine , 2019, Fuel.

[13]  Hongming Xu,et al.  Investigation of gasoline containing GTL naphtha in a spark ignition engine at full load conditions , 2017 .

[14]  Kevin M. Lynch,et al.  Embedded Computing and Mechatronics with the PIC32 Microcontroller , 2015 .

[15]  Zhenkuo Wu,et al.  Influence of single injection and two-stagnation injection strategy on thermodynamic process and performance of a turbocharged direct-injection spark-ignition engine fuelled with ethanol and gasoline blend , 2018, Applied Energy.

[16]  Liu Fushui,et al.  The distinctive characteristics of combustion duration in hydrogen internal combustion engine , 2014 .

[17]  Ujjwal K. Saha,et al.  Effect of engine parameters and type of gaseous fuel on the performance of dual-fuel gas diesel engines—A critical review , 2009 .

[18]  Zhong-chang Liu,et al.  Impact of natural gas injection strategies on combustion and emissions of a dual fuel natural gas engine ignited with diesel at low loads , 2020 .

[19]  Jingping Liu,et al.  Quantitative investigation the influences of the injection timing under single and double injection strategies on performance, combustion and emissions characteristics of a GDI SI engine fueled with gasoline/ethanol blend , 2020 .

[20]  Sajjad Emami,et al.  Effects of injection timing, before and after top dead center on the propulsion and power in a diesel engine , 2014 .

[21]  Fuwu Yan,et al.  Artificial neural network applications in the calibration of spark-ignition engines: An overview , 2016 .

[22]  A. Maiboom,et al.  Experimental study of various effects of exhaust gas recirculation (EGR) on combustion and emissions of an automotive direct injection diesel engine , 2008 .

[23]  Boris Lohmann,et al.  Analysing Gaussian Processes for Stationary Black-Box Combustion Engine Modelling , 2011 .

[24]  C. Hergueta,et al.  Impact of bio-alcohol fuels combustion on particulate matter morphology from efficient gasoline direct injection engines , 2018, Applied Energy.

[25]  C. Beatrice,et al.  Assessment of optimized calibrations in minimizing GHG emissions from a Dual Fuel NG/Diesel automotive engine , 2019 .

[26]  Qiao Wang,et al.  Effects of EGR and combustion phasing on the combustion and emission characteristic of direct-injection CI engine fueled with n-butanol/diesel blends , 2019, Energy Procedia.

[27]  Ke Zeng,et al.  Effects of spark timing and methanol addition on combustion characteristics and emissions of dual-fuel engine fuelled with natural gas and methanol under lean-burn condition , 2019, Energy Conversion and Management.

[28]  Federico Millo,et al.  Application of the Design of Experiments and Objective Functions for the Optimization of Multiple Injection Strategies for Low Emissions in CR Diesel Engines , 2004 .

[29]  Nick Molden,et al.  Engine maps of fuel use and emissions from transient driving cycles , 2016 .

[30]  Robert Prucka,et al.  Model-Based Optimal Combustion Phasing Control Strategy for Spark Ignition Engines , 2016 .

[31]  Gabriel Turesson,et al.  Model-Based Optimization of Combustion-Engine Control , 2018 .

[32]  G. B. Machado,et al.  Estimating gasoline performance in internal combustion engines with simulation metamodels , 2017 .

[33]  Jingping Liu,et al.  Experimental investigation the impacts of injection strategies coupled with gasoline/ethanol blend on combustion, performance and emissions characteristics of a GDI spark-ignition engine , 2019, Fuel.

[34]  Yun Bai,et al.  Investigation on the fuel injection quantity fluctuation of a common-rail fuel injection system using response surface methodology , 2016 .

[35]  Yuhu Wu,et al.  On-line statistical combustion phase optimization and control of SI gasoline engines , 2017 .

[36]  Michael Wensing,et al.  Model-based virtual engine calibration with the help of phenomenological methods for spark-ignited engines , 2017 .

[37]  J. Benajes,et al.  An investigation on the particulate number and size distributions over the whole engine map from an optimized combustion strategy combining RCCI and dual-fuel diesel-gasoline , 2017 .

[38]  Kihyung Lee,et al.  Optimization and calibration strategy using design of experiment for a diesel engine , 2017 .

[39]  B. Böhm,et al.  In situ sensor for cycle-resolved measurement of temperature and mole fractions in IC engine exhaust gases , 2019, Proceedings of the Combustion Institute.

[40]  Thomas Steffen,et al.  Review of selection criteria for sensor and actuator configurations suitable for internal combustion engines , 2018 .

[41]  Stefano D'Ambrosio,et al.  Potential of double pilot injection strategies optimized with the design of experiments procedure to improve diesel engine emissions and performance , 2015 .

[42]  A. P. Tschiptschin,et al.  Effects of ethanol content on cast iron cylinder wear in a flex-fuel internal combustion engine–A case study , 2018 .

[43]  Ezio Spessa,et al.  Offline and Real-Time Optimization of EGR Rate and Injection Timing in Diesel Engines , 2015 .

[44]  Joachim Rückert,et al.  Online Dynamic Black Box Modelling and Adaptive Experiment Design in Combustion Engine Calibration , 2010 .

[45]  Christopher M. Atkinson,et al.  Calibration Optimization of a Heavy-Duty Diesel Engine with GTL Diesel Fuel , 2016 .

[46]  Christian Friedrich,et al.  Model Based Calibration Techniques for Medium Speed Engine Optimization: Investigations on Common Modeling Approaches for Modeling of Selected Steady State Engine Outputs , 2016 .

[47]  Chan Hong Park,et al.  The Software Platform Development of a New Microcontroller for Automotive Body Systems , 2008 .

[48]  Massimo Violante,et al.  Design and rapid prototyping of a closed-loop control strategy of the injected mass for the reduction of CO2, combustion noise and pollutant emissions in diesel engines , 2018, Applied Energy.

[49]  Hongming Xu,et al.  University of Birmingham Splash blended ethanol in a spark ignition engine – Effect of RON, octane sensitivity and charge cooling , 2017 .

[50]  Minggao Ouyang,et al.  Dieseline fueled flexible fuel compression ignition engine control based on in-cylinder pressure sensor , 2015 .

[51]  Rajendran Silambarasan,et al.  Influence of injection timing and compression ratio on performance, emission and combustion characteristics of Annona methyl ester operated diesel engine , 2015 .

[52]  R. Suarez-Bertoa,et al.  Intercomparison of ethanol, formaldehyde and acetaldehyde measurements from a flex-fuel vehicle exhaust during the WLTC , 2017 .

[53]  Federico Millo,et al.  Particle Number, Size and Mass Emissions of Different Biodiesel Blends Versus ULSD from a Small Displacement Automotive Diesel Engine , 2011 .

[54]  G. N. Kumar,et al.  Effect of exhaust gas recirculation on a CRDI engine fueled with waste plastic oil blend , 2018, Fuel.

[55]  F. J. Salvador,et al.  Improved mixture quality by advanced dual-nozzle, included-angle split injection in HSDI engine: Exergetic exploration , 2019, Energy.

[56]  R. Anand,et al.  Impact of split injection strategy on combustion, performance and emissions characteristics of biodiesel fuelled common rail direct injection assisted diesel engine , 2018, Energy.

[57]  Ted Van Sickle Programming Microcontrollers in C , 1994 .

[58]  Jan Bosch,et al.  Architecture for embedded open software ecosystems , 2014, J. Syst. Softw..

[59]  Wang Jing,et al.  Research on the Optimization Design of Motorcycle Engine Based on DOE Methodology , 2017 .

[60]  M. Shahbakhti,et al.  Optimization of performance and operational cost for a dual mode diesel-natural gas RCCI and diesel combustion engine , 2018, Applied Energy.

[61]  Fujun Zhang,et al.  Control oriented modeling and analysis of gas exchange and combustion processes for LTC diesel engine , 2017 .

[62]  Federico Millo,et al.  Effects of Rapeseed and Jatropha Methyl Ester on Performance and Emissions of a Euro 5 Small Displacement Automotive Diesel Engine , 2011 .

[63]  Tielong Shen,et al.  Spark advance self-optimization with knock probability threshold for lean-burn operation mode of SI engine , 2017 .

[64]  Tim Wilmshurst,et al.  Fast and Effective Embedded Systems Design: Applying the ARM mbed , 2012 .

[65]  Carlos Guardiola,et al.  In-cylinder pressure based model for exhaust temperature estimation in internal combustion engines , 2017 .

[66]  M. Deb,et al.  An experimental investigation of performance-emission trade off characteristics of a CI engine using hydrogen as dual fuel , 2015 .

[67]  A. Dhar,et al.  Compression ratio influence on combustion and emissions characteristic of hydrogen diesel dual fuel CI engine: Numerical Study , 2018, Fuel.

[68]  W. Tsai,et al.  An Experimental Characterization for Injection Quantity of a High-pressure Injector in GDI Engines , 2018, Journal of Low Power Electronics and Applications.

[69]  Madan Kumar,et al.  NOx model development and validation with diesel and hydrogen/diesel dual-fuel system on diesel engine , 2018 .

[70]  Sangjun Park,et al.  Model-based multi-objective Pareto optimization of the BSFC and NOx emission of a dual-fuel engine using a variable valve strategy , 2017 .

[71]  Jingping Liu,et al.  Experimental and computational study on the effects of injection timing on thermodynamics, combustion and emission characteristics of a natural gas (NG)-diesel dual fuel engine at low speed and low load , 2018 .

[72]  P. Dinesha,et al.  Optimization of engine parameters in a bio diesel engine run with honge methyl ester using response surface methodology , 2018, Measurement.

[73]  S. Saravanan,et al.  Effect of EGR at advanced injection timing on combustion characteristics of diesel engine , 2015 .

[74]  Federico Millo,et al.  Analysis of Performance and Emissions of an Automotive Euro 5 Diesel Engine Fuelled with B30 from RME and JME , 2011 .

[75]  Octavio Armas,et al.  Methodology to simulate normalized testing cycles for engines and vehicles via design of experiments with low number of runs , 2018, Energy Conversion and Management.

[76]  M. Lapuerta,et al.  Cold- and warm-temperature emissions assessment of n-butanol blends in a Euro 6 vehicle , 2018 .

[77]  Dimitrios N Tziourtzioumis,et al.  Effects of a 70% biodiesel blend on the fuel injection system operation during steady-state and transient performance of a common rail diesel engine , 2012 .

[78]  Zoran Filipi,et al.  Optimal Calibration of high DOF Engines Considering Fuel Economy and Combustion Stability , 2009 .

[79]  R. Anand,et al.  Influence of fuel injection timing and nozzle opening pressure on a CRDI-assisted diesel engine fueled with biodiesel-diesel-alcohol fuel , 2019, Advances in Eco-Fuels for a Sustainable Environment.

[80]  Xiao Ma,et al.  Combustion and emission characteristics of a direct injection diesel engine fueled with biodiesel and PODE/biodiesel fuel blends , 2017 .

[81]  J. Vavra,et al.  Emissions and performance of diesel-natural gas dual-fuel engine operated with stoichiometric mixture , 2017 .

[82]  Ali Navid,et al.  Comparing multi-objective non-evolutionary NLPQL and evolutionary genetic algorithm optimization of a DI diesel engine: DoE estimation and creating surrogate model , 2016 .

[83]  Tadeu Cavalcante Cordeiro de Melo,et al.  Hydrous ethanol–gasoline blends – Combustion and emission investigations on a Flex-Fuel engine , 2012 .

[84]  S. Uslu,et al.  Performance and Exhaust Emission Prediction of a SI Engine Fueled with I-amyl Alcohol-Gasoline Blends: An ANN Coupled RSM Based Optimization , 2020, Fuel.

[85]  Benjamin Berger,et al.  Robust Gaussian Process Modelling for Engine Calibration , 2012 .

[86]  Carlos Eduardo Castilla Alvarez,et al.  Effects of mixture enleanment in combustion and emission parameters using a flex-fuel engine with ethanol and gasoline , 2019, Applied Thermal Engineering.

[87]  Wen-Chang Tsai,et al.  Design of Electrical Driving Circuits for a High-pressure Fuel Injector and Control of Fuel Injection Quantities by using the Polynomial Curve Fitting Method , 2011 .

[88]  C. Hergueta,et al.  Butanol-gasoline blend and exhaust gas recirculation, impact on GDI engine emissions , 2017 .

[89]  Edvaldo da Silva Carreira,et al.  Analysis of performance parameters of an ethanol fueled spark ignition engine operating with hydrogen enrichment , 2020 .

[90]  Prasanta Sarkar,et al.  DESIGNS OF INPUT AND OUTPUT DRIVER CIRCUITS FOR 16-BIT ELECTRONIC CONTROL UNIT (ECU) AND DEVELOPMENT OF CONTROL STRATEGY FOR ECU USING THESE I/O DRIVER CIRCUITS , 2014 .

[91]  A. K. Rout,et al.  Multiple response optimizations to improve performance and reduce emissions of Argemone Mexicana biodiesel-diesel blends in a VCR engine , 2019, Applied Thermal Engineering.

[92]  V. Karthickeyan,et al.  Experimental investigation on pumpkin seed oil methyl ester blend in diesel engine with various injection pressure, injection timing and compression ratio , 2020 .

[93]  Arnold Kistner,et al.  Optimal Automated Calibration of Model-Based ECU-Functions in Air System of Diesel Engines , 2018 .

[94]  Pranav Arya,et al.  A fully automated smooth calibration generation methodology for optimization of latest generation of automotive diesel engines , 2019 .

[95]  Ezio Spessa,et al.  A Feed-Forward Approach for the Real-Time Estimation and Control of MFB50 and SOI In Diesel Engines , 2014 .

[96]  Yashvir Singh,et al.  Optimization of diesel engine performance and emission parameters employing cassia tora methyl esters-response surface methodology approach , 2019, Energy.

[97]  U. Lefarth,et al.  An integrated approach to rapid product development for embedded automotive control systems , 1998 .

[98]  M. Krishnamoorthi,et al.  RSM based optimization of performance and emission characteristics of DI compression ignition engine fuelled with diesel/aegle marmelos oil/diethyl ether blends at varying compression ratio, injection pressure and injection timing , 2018, Fuel.

[99]  Carlo Beatrice,et al.  Study of the Effect of the Engine Parameters Calibration to Optimize the Use of Bio-Ethanol/RME/Diesel Blend in a Euro5 Light Duty Diesel Engine , 2013 .

[100]  J. Mattson,et al.  Efficiency and Emissions Mapping for a Single-Cylinder, Direct Injected Compression Ignition Engine , 2014 .

[101]  Yifan Wei,et al.  Use of Predictive Engine and Emission Model for Diesel Engine Model Based Calibration , 2019 .

[102]  T. Nejat Veziroglu,et al.  Review: Biofuel Production from Plant and Algal Biomass , 2016, Alternative Energy and Ecology (ISJAEE).

[103]  P. Mishra,et al.  Optimization of emission characteristics of spark ignition engine with chambered straight muffler running in methanol blend:An engine development technique for environmental sustainability , 2019, Journal of Cleaner Production.

[104]  K. V. Madhu Murthy,et al.  Effective reduction of NOx emissions from diesel engine using split injections , 2017, Alexandria Engineering Journal.

[105]  Ezio Mancaruso,et al.  Analysis of combustion phenomena and pollutant formation in a small compression ignition engine fuelled with blended and pure rapeseed methyl ester , 2016 .

[106]  Chi-Man Vong,et al.  Efficient point-by-point engine calibration using machine learning and sequential design of experiment strategies , 2017, J. Frankl. Inst..

[107]  Carlo Beatrice,et al.  Parametric study and optimization of the main engine calibration parameters and compression ratio of a methane-diesel dual fuel engine , 2018, Fuel.

[108]  M. Lapuerta,et al.  Interaction of diesel engine soot with NO2 and O2 at diesel exhaust conditions. Effect of fuel and engine operation mode , 2018 .

[109]  V. Karthickeyan Effect of combustion chamber bowl geometry modification on engine performance, combustion and emission characteristics of biodiesel fuelled diesel engine with its energy and exergy analysis , 2019, Energy.

[110]  Zhijia Yang,et al.  Characterisation, control, and energy management of electrified turbocharged diesel engines , 2017 .

[111]  Li Xu,et al.  Automatic calibration algorithm of 0-D combustion model applied to DICI diesel engine , 2018 .

[112]  R. Abedi,et al.  Effect of Chlorella vulgaris methyl ester enriched with hydrogen on performance and emission characteristics of CI engine , 2019, Fuel.

[113]  N. Singh,et al.  RETRACTED: Production of polanga methyl esters and optimization of diesel engine parameters through response surface methodology approach , 2019, Process Safety and Environmental Protection.

[114]  M. Potenza,et al.  Effect of injection strategies on particulate matter structures of a turbocharged GDI engine , 2019, Fuel.

[115]  S. Murugavelh,et al.  Optimization and transesterification of sterculia oil: Assessment of engine performance, emission and combustion analysis , 2019, Journal of Cleaner Production.

[116]  K. Boulouchos,et al.  Spray Model Based Phenomenological Combustion Description and Experimental Validation for a Dual Fuel Engine , 2017 .

[117]  Shuofeng Wang,et al.  Realizing low emissions on a hydrogen-fueled spark ignition engine at the cold start period under rich combustion through ignition timing control , 2019, International Journal of Hydrogen Energy.

[118]  Balaji Mohan,et al.  Fuel injection strategies for performance improvement and emissions reduction in compression ignition engines—A review , 2013 .

[119]  Giorgio Zamboni,et al.  Experimental study on the effects of HP and LP EGR in an automotive turbocharged diesel engine , 2012 .

[120]  Christopher M. Atkinson,et al.  Using Model-Based Rapid Transient Calibration to Reduce Fuel Consumption and Emissions in Diesel Engines , 2008 .

[121]  Zhen Huang,et al.  Effects of H2 and CO enrichment on the combustion, emission and performance characteristics of spark ignition natural gas engine , 2016 .

[122]  Ezio Spessa,et al.  Assessment of a New Quasi-Dimensional Multizone Combustion Model for the Spray and Soot Formation Analysis in an Optical Single Cylinder Diesel Engine , 2013 .

[123]  Bo Zhang,et al.  Improving the performance of a spark-ignited gasoline engine with the addition of syngas produced by onboard ethanol steaming reforming , 2012 .

[124]  Kent C. Johnson,et al.  A comparison of a mini-PEMS and a 1065 compliant PEMS for on-road gaseous and particulate emissions from a light duty diesel truck. , 2018, The Science of the total environment.

[125]  Shuofeng Wang,et al.  Impacts of dimethyl ether enrichment and various injection strategies on combustion and emissions of direct injection gasoline engines in the lean-burn condition , 2019, Fuel.

[126]  B. Pla,et al.  Effects of low pressure exhaust gas recirculation on regulated and unregulated gaseous emissions dur , 2011 .

[127]  Pranav Arya,et al.  Optimization of automotive diesel engine calibration using genetic algorithm techniques , 2017, Energy.

[128]  G. Blasio,et al.  Investigation of the Effect of Compression Ratio on the Combustion Behavior and Emission Performance of HVO Blended Diesel Fuels in a Single-Cylinder Light-Duty Diesel Engine , 2015 .

[129]  Magín Lapuerta,et al.  Regeneration of diesel particulate filters: Effect of renewable fuels , 2017 .

[130]  A. Pugazhendhi,et al.  Performance, combustion and emission analysis of microalgae Spirulina in a common rail direct injection diesel engine , 2019, Fuel.

[131]  Lucien Koopmans,et al.  Water Injection Benefits in a 3-Cylinder Downsized SI-Engine , 2019, SAE Technical Paper Series.

[132]  Tielong Shen,et al.  Real-time statistical learning-based stochastic knock limit control for spark-ignition engines , 2017 .

[133]  N. Vedaraman,et al.  Biodiesel production process optimization from Pithecellobium dulce seed oil: Performance, combustion, and emission analysis on compression ignition engine fuelled with diesel/biodiesel blends , 2018 .

[134]  A. Prévôt,et al.  Primary emissions and secondary organic aerosol formation from the exhaust of a flex-fuel (ethanol) vehicle , 2015 .

[135]  Jingping Liu,et al.  Experimental investigation of the effects of injection strategies on cycle-to-cycle variations of a DISI engine fueled with ethanol and gasoline blend , 2018, Energy.

[136]  Rainer Leupers,et al.  An optimal allocation of memory buffers for complex multicore platforms , 2016, J. Syst. Archit..

[137]  Hao Chen,et al.  Investigation on combustion and emission performance of a common rail diesel engine fueled with diesel-ethylene glycol dual fuel , 2018, Applied Thermal Engineering.

[138]  Martin Tuner,et al.  Effect of the engine calibration parameters on gasoline partially premixed combustion performance and emissions compared to conventional diesel combustion in a light-duty Euro 6 engine , 2018, Applied Energy.

[139]  Lucio Postrioti,et al.  An experimental and numerical analysis of pressure pulsation effects of a Gasoline Direct Injection system , 2016 .

[140]  Andreas Balazs,et al.  Increasing Efficiency in Gasoline Powertrains with a Two-Stage Variable Compression Ratio (VCR) System , 2013 .

[141]  Jiju Antony,et al.  Design of experiments for engineers and scientists , 2003 .

[143]  Soonho Song,et al.  The effects of the air-fuel ratio on a stationary diesel engine under dual-fuel conditions and multi-objective optimization , 2019, Energy.

[144]  S. Uslu,et al.  Combustion and emission characteristics of isoamyl alcohol-gasoline blends in spark ignition engine , 2020 .

[145]  M. G. Dastidar,et al.  Experimental assessment of performance, combustion and emissions of a compression ignition engine fuelled with Spirulina platensis biodiesel , 2020, Energy.

[146]  H. Kim,et al.  Optimization of palm oil biodiesel blends and engine operating parameters to improve performance and PM morphology in a common rail direct injection diesel engine , 2020 .

[147]  Sangram D. Jadhav,et al.  Optimization of Vibration, Performance and Emission of C.I. Engine Operated on Simarouba Biodiesel Using Taguchi and Multiple Regression Analysis , 2017 .

[148]  E. Galloni,et al.  Performance analyses of a spark-ignition engine firing with gasoline–butanol blends at partial load operation , 2016 .

[149]  Karl Henrik Johansson,et al.  Vehicle Applications of Controller Area Network , 2005, Handbook of Networked and Embedded Control Systems.

[150]  Qianfan Xin,et al.  Diesel Engine System Design , 2011 .

[151]  Joachim Demuynck,et al.  The potential of methanol as a fuel for flex-fuel and dedicated spark-ignition engines , 2013 .

[152]  Ertan Alptekin Evaluation of ethanol and isopropanol as additives with diesel fuel in a CRDI diesel engine , 2017 .

[153]  Sensors and Transducers , 2019, Handbook of Biomechatronics.

[154]  O. Armas,et al.  Impact of injection strategy and GTL fuels on combustion process and performance under diesel engine start , 2017 .

[155]  M. Kocan,et al.  Signal conditioning and processing for metallic Hall sensors , 2017 .

[156]  Gvidonas Labeckas,et al.  The effect of ethanol–diesel–biodiesel blends on combustion, performance and emissions of a direct injection diesel engine , 2014 .

[157]  Federico Millo,et al.  Analysis of different exhaust gas recirculation architectures for passenger car Diesel engines , 2012 .

[158]  Joonhyun Park,et al.  Product Line Engineering for Basic Software of Automotive Embedded Systems , 2018 .

[159]  Rolf Isermann,et al.  Model-based development of combustion-engine control and optimal calibration for driving cycles: general procedure and application , 2016 .

[160]  Marcos Alonso,et al.  Optimization of the combustion system of a medium duty direct injection diesel engine by combining CFD modeling with experimental validation , 2016 .

[161]  William B. Ribbens Understanding Automotive Electronics: An Engineering Perspective , 1982 .

[162]  A. Boguta Application of the LabVIEW environment in testing automotive thermoanemometric flow meters , 2017 .

[163]  M. D. Rogers The mechanism of scuffing in diesel engines , 1970 .

[164]  Daniel Dresser,et al.  Automated Model-Based Calibration for Drivability Using a Virtual Engine Test Cell , 2015 .

[165]  Anren Yao,et al.  Effect of diesel late-injection on combustion and emissions characteristics of diesel/methanol dual fuel engine , 2018, Fuel.

[166]  T. Verma,et al.  Effect of spirulina microalgae biodiesel enriched with diesel fuel on performance and emission characteristics of CI engine , 2020 .

[167]  Alessandro Ferrari,et al.  Dependence of combustion noise on engine calibration parameters by means of the response surface methodology in passenger car diesel engines , 2019 .

[168]  Myoungho Sunwoo,et al.  Development of an Injector Driver for Piezo Actuated Common Rail Injectors , 2007 .

[169]  K. Simhadri,et al.  Impact of Cold and Hot Exhaust Gas Recirculation on Diesel Engine , 2013 .

[170]  Fujun Zhang,et al.  A novel lambda-based EGR (exhaust gas recirculation) modulation method for a turbocharged diesel engine under transient operation , 2016 .

[171]  Stefano D'Ambrosio,et al.  Preliminary Optimization of the PCCI Combustion Mode in a Diesel Engine through a Design of Experiments , 2016 .

[172]  Abhishek Sharma,et al.  Performance and emission analysis of a diesel engine implementing polanga biodiesel and optimization using Taguchi method , 2018, Process Safety and Environmental Protection.

[173]  Bo Yang,et al.  The Development of an Electronic Control Unit for a High Pressure Common Rail Diesel/Natural Gas Dual- Fuel Engine , 2014 .

[174]  Stefano D'Ambrosio,et al.  Potential of multiple injection strategies implementing the after shot and optimized with the design of experiments procedure to improve diesel engine emissions and performance , 2015 .