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Journal Article

Online Implementation of an Optimal Supervisory Control for a Parallel Hybrid Powertrain

2009-06-15
2009-01-1868
The authors present the supervisory control of a parallel hybrid powertrain, focusing on several issues related to the real-time implementation of optimal control based techniques, such as the Equivalent Consumption Minimization Strategies (ECMS). Real-time implementation is introduced as an intermediate step of a complete chain of tools aimed at investigating the supervisory control problem. These tools comprise an offline optimizer based on Pontryagin Minimum Principle (PMP), a two-layer real-time control structure, and a modular engine-in-the-loop test bench. Control results are presented for a regulatory drive cycle with the aim of illustrating the benefits of optimal control in terms of fuel economy, the role of the optimization constraints dictated by drivability requirements, and the effectiveness of the feedback rule proposed for the adaptation of the equivalence factor (Lagrange multiplier).
Journal Article

OILPAS - Online Imaging of Liquid-Particle-Suspensions - How to Prevent a Sudden Engine Breakdown

2010-05-05
2010-01-1528
Amount and size distribution of wear particles in engine lubricating oil are indicators of the current machine condition. A change in size distribution, especially a rise in the amount of larger particles, often indicates a starting wear of some machine parts. Monitoring wear particles contained in lubricating oil during normal machine operation can help to identify the need for maintenance and more important to prevent sudden failure of the machine. An optical method is used to image a thin layer of oil to count and classify contained particles. Therefore, a continuous flow of undiluted oil from the oil circuit of the machine is pumped through the measurement instrument. Inside the instrument, the oil flow is directed through a thin transparent flow cell. Images are taken using a bright LED flashlight source, a magnification lens, and a digital camera. Algorithms have been developed to process and analyze the images.
Technical Paper

Parameter Matching of Planetary Gearset Characteristic Parameter of Power-Spilt Hybrid Vehicle

2021-09-16
2021-01-5088
To quickly and efficiently match the planetary gearset characteristic parameter of power-spilt hybrid vehicles so that their oil-saving potential can be maximized, this study proposes a parameter matching method that comprehensively considers energy management strategy and driving cycle based on an analysis of vehicle instantaneous efficiency. The method is used to match the planetary characteristic parameter of a power-split hybrid light truck. The relevant conclusions are compared with the influence of various planetary characteristic parameters on fuel consumption obtained through simulation under typical operating conditions. The simulation results show that the influence laws of the various planetary characteristic parameters on vehicle average efficiency are similar to those on fuel consumption. The proposed parameter-matching method based on vehicle efficiency analysis can effectively match the planetary characteristic parameter for power-split hybrid powertrains.
Technical Paper

LPG and Prechamber as Enabler for Highly Performant and Efficient Combustion Processes Under Stoichiometric Conditions

2021-09-05
2021-24-0032
The European Union has defined legally binding CO2-fleet targets for new cars until 2030. Therefore, improvement of fuel economy and carbon dioxide emission reduction is becoming one of the most important issues for the car manufacturers. Today’s conventional car powertrain systems are reaching their technical limits and will not be able to meet future CO2 targets without further improvement in combustion efficiency, using low carbon fuels (LCF), and at least mild electrification. This paper demonstrates a highly efficient and performant combustion engine concept with a passive pre-chamber spark plug, operating at stoichiometric conditions and powered with liquefied petroleum gas (LPG). Even from fossil origin, LPG features many advantages such as low carbon/hydrogen ratio, low price and broad availability. In future, it can be produced from renewables and it is in liquid state under relatively low pressures, allowing the use of conventional injection and fuel supply components.
Technical Paper

Estimation of Speciation Data for Hydrocarbons using Data Science

2021-09-05
2021-24-0081
Strict regulations on air pollution motivates clean combustion research for fossil fuels. To numerically mimic real gasoline fuel reactivity, surrogates are proposed to facilitate advanced engine design and predict emissions by chemical kinetic modelling. However, chemical kinetic models could not accurately predict non-regular emissions, e.g. aldehydes, ketones and unsaturated hydrocarbons, which are important air pollutants. In this work, we propose to use machine-learning algorithms to achieve better predictions. Combustion chemistry of fuels constituting of 10 neat fuels, 6 primary reference fuels (PRF) and 6 FGX surrogates were tested in a jet stirred reactor. Experimental data were collected in the same setup to maintain data uniformity and consistency under following conditions: residence time at 1.0 second, fuel concentration at 0.25%, equivalence ratio at 1.0, and temperature range from 750 to 1100K.
Technical Paper

Investigations into Steady-State and Stop-Start Emissions in a Wankel Rotary Engine with a Novel Rotor Cooling Arrangement

2021-09-05
2021-24-0097
The present work investigates a means of controlling engine hydrocarbon startup and shutdown emissions in a Wankel engine which uses a novel rotor cooling method. Mechanically the engine employs a self-pressurizing air-cooled rotor system (SPARCS) configured to provide improved cooling versus a simple air-cooled rotor arrangement. The novelty of the SPARCS system is that it uses the fact that blowby past the sealing grid is inevitable in a Wankel engine as a means of increasing the density of the medium used for cooling the rotor. Unfortunately, the design also means that when the engine is shutdown, due to the overpressure within the engine core and the fact that fuel vapour and lubricating oil are to be found within it, unburned hydrocarbons can leak into the combustion chambers, and thence to the atmosphere via either or both of the intake and exhaust ports.
Technical Paper

Optimization of Energy Management and Control for a Hybridized Through-The-Road Car

2021-09-05
2021-24-0107
The deployment of electric and hybrid electric vehicle is accounted to be the most feasible solution for lowering the transportation sector pollution emissions and energy consumption. However, the transition to electrified mobility is not behind the corner and many challenges, such as battery recharging issues, free-carbon electricity and grid sustainability, remain unsolved. A sustainable solution, also from a Life-Cycle Assessment perspective, is the conversion of existing vehicles into hybrid solar cars. In this study, the latest updates of the LIFE-SAVE project for the development of an aftermarket kit for vehicles hybridization are presented. In particular, the application of the Pontryagin’s Minimum Principles for the optimal control of a transformed vehicle is presented. Results show that fuel economy on the vehicle both in charge sustaining and in charge depleting operations are improved by about 1% and 13%, respectively.
Technical Paper

Methodology to Simulate Adsorption and Desorption Phenomena of Gasoline Fuel Vapour in Activated-Carbon Canister to Meet Post-EU6 and US EPA Global Emission Norms

2021-09-15
2021-28-0131
This paper covers the mathematical modeling of governing equations for the coupled heat and mass transfer phenomena during adsorption and desorption. Also the main focus is given on the methodology for numerical simulation for solving these partial differential equations for carbon canister. A comprehensive literature review is presented to summarize the target requirements of allowed evaporative emission level of gasoline vapour in grams per day based on global standards like, EU6, EPA stage II enhanced, CARB LEVII, PZEV and SULEV. In order to meet these stringent emission norms, presence of carbon canister is mandatory. The simulation results are compared for the gasoline vehicle application at various climatic temperature conditions in India, in which the canister sizing vs allowable emission targets are summarized.
Technical Paper

Experimental Investigation on the Effect of Natural Based Additives on Single-Cylinder Di Diesel Engine

2021-09-15
2021-28-0130
In this experimental study, an attempt is made to enhance the performance characteristics of diesel fuel with two different natural additives (NA). Borassus Flabelifer (NB1) and Oryza Sativa straws (NB2) were chosen as natural additives. The selected natural additives were milled for 150 hours using a planetary ball mill and their particle sizes ranging from 120 to 125 nm. The milled natural additives were doped into neat diesel using a magnetic stirrer followed by ultrasonication and their stability was ascertained. The presence of high carbon and oxygen content was noted on EDS results of milled powder. The properties of fuel were analyzed as per ASTM standards and it was observed that there was a marginal decrease in calorific value, flash point, and fire point of the fuel.
Technical Paper

Experimental Investigation on the Effect of HVAC Power Consumption in Electric Vehicle Integrated with Thin Film Solar PV Panels

2021-09-15
2021-28-0122
Air conditioning systems are one of the significant auxiliary loads on the vehicle powertrain. In an Electric Vehicle (EV) where the available energy is limited, it becomes crucial to optimize the overall energy consumption of the auxiliary loads. The major power consuming components in an automotive HVAC system (Heating, Ventilation and Air Conditioning) are: Compressor, Cabin blower, Condenser cooling fan and the Control devices. Significant progress is already made in enhancing the energy efficiency of the above-mentioned power consuming components part of vehicle HVAC system. Alternate energy sources are being explored recently, to reduce the energy demand from vehicle. One such proposal is to harness the abundant solar energy available, through solar panels and consume this energy to supplement the power required for HVAC system components. Solar panels convert solar energy to electrical energy by the principle of the photovoltaic effect.
Technical Paper

Solar Powered Incabin Evaporative Cooling System

2021-09-15
2021-28-0144
During hot ambient, the cabin temperature of vehicle undergoing soaking may rise up to 70oC. Warm temperature and seats often turn uncomfortable to the passenger. The high temperature may result in thermal degradation of various plastic components, which in turn may release hazardous gases [2]. Usual practice to improve air quality inside the cabin includes switching on the air conditioning while keeping the window panes open. Such a practice minimizes the stabilization time to achieve comfortable cabin temperature. However, significant power requirement by the air-conditioning system during cool down cycle results in excess fuel consumption [7]. To eliminate these problems, the SOLAR POWERED INCABIN EVAPORATIVE COOLING SYSTEM can be installed in the car. This system uses a solar panel which converts the Solar energy into the Electrical energy. This energy can be used to recharge small battery or can be directly used to give necessary power for the cooling system.
Technical Paper

1D Simulation-Based Methodology for Automotive Grill Opening Area Optimization

2021-09-15
2021-28-0133
This paper discusses the methodology setup for grill opening area prediction at the early development phase of the product development lifecycle, using a commercially available 1D simulation tool- AMESIM. Representative under hood has been modeled using Grill, Condenser, Radiator, intercooler, fan, and engine components. Vehicle velocity is used as an input to derive the airflow passing through the grill and other under-hood components based on ram air coefficient, pressure drop through different components (Grill, Heat exchanger, Fan & Engine). This airflow is used to predict the top tank temperature of the radiator. Derived airflow is correlated with airflow obtained from CFD simulation. A balance has been achieved between cooling drag & fan power consumption at different grill opening areas for target top tank temperature. Top tank temperature has been predicted at two different extreme engine heat rejection operating points.
Technical Paper

Under-Hood CRFM and CAC Air Flow Management of Vehicle to Improve Thermal Performance by 1D Method Using Amesim

2021-09-15
2021-28-0140
Currently the Automotive industry demands highly competitive product to survive in the global tough competition. The engine cooling system plays a vital role in meeting the stringent emission norms and improving the vehicle fuel economy apart from maintaining the operating temperature of engine. The airflow through vehicle subsystems like the grille, bumper, the heat exchangers, the fan and shroud and engine bay are called as front-end flow. Front end flow is crucial factor in engine cooling system as well as in determining the aerodynamic drag of vehicle. The airflow through the engine compartment is determined by the front-end vehicle geometry, the CRFM and CAC package, the engine back restriction and the engine compartment geometry including the inlet and outlet sections. This paper discusses the 1D modelling method for front-end airflow rate prediction and thermal performance by 1D method. The underbody components are stacked using heat stack and simulated in pressure mode.
Technical Paper

Advanced Developments in Solid Desiccant Coated Heat Exchangers and their Potential Applications

2021-09-15
2021-28-0142
To meet the increasing thermal comfort requirements in recent times, applying a solid desiccant coated heat exchanger (SDCHE) air-conditioning system is one of the thrust areas of focus due to its energy efficiency benefits. Fixed stationary bed and rotary wheel desiccant systems are being used widely for dehumidification. In these systems, the increase in the relative humidity of intake process air increases the adsorption heat release from the desiccant, and the desiccant’s temperature increases due to the lower heat transfer efficiency. This effect reduces the COP of these systems since the desiccant adsorption capacity is inversely proportional to the desiccant’s temperature. To overcome the limitations of the fixed stationary beds and rotary wheel desiccant dehumidifiers, SDCHE is a suitable technology for standard vapor-compression air conditioners. These heat exchangers can deliver combined heat and mass transfer between the process air and the working fluid.
Technical Paper

Attaining Thermal Comfort by Utilizing Polymer Dispersed Liquid Crystal Embedded Wind Shield and Roof of a Passenger Car

2021-09-15
2021-28-0151
Despite the advances in the field of vehicle thermal management, certain challenges still exists which are yet necessary to be addressed. One of among those challenges is maintaining the vehicle cabin temperature at a comfortable level and reducing the losses incurred by the vehicle. Vehicle cabin temperature is an important factor in deciding the reliability, longevity and fuel economy of a vehicle. Also, for the safety and comfort of the driver and passengers, the comfort conditions are to be maintained in all climatic conditions. The cabin temperature is increased due to thermal soaking from direct sunlight and this increases the vehicle cabin temperature up to a range of 50 0C to 70 0C. The amount of solar radiation entering into the vehicle cabin is a major factor which is a contribution of transmissivity of light radiation through the windows including the windshield.
Technical Paper

The Effect of Temperature on the Molecular Compositions of External and Internal Gasoline Direct Injection Deposits

2021-09-21
2021-01-1188
The increased severity and prevalence of insoluble deposits formed on fuel injectors in gasoline direct injection (GDI) engines precipitates negative environmental, economic and healthcare impacts. A necessary step in mitigating deposits is to unravel the molecular compositions of these complex layered materials. But very little molecular data has been acquired. Mass spectrometry shows promise but most techniques require the use of solvents, making them unsuited for analyzing insoluble deposits. Here, we apply the high mass-resolving power and in-situ analysis capabilities of 3D OrbitrapTM secondary ion mass spectrometry (3D OrbiSIMS) to characterize deposits formed on the external tip and internal needle from a GDI injector. This is the first application of the technique to study internal GDI deposits. Polycyclic aromatic hydrocarbons (PAHs) are present up to higher maximum masses in the external deposit.
Technical Paper

Experimental Investigation on Reactivity Controlled Compression Ignition with Oxygenated Alternative Fuel Blends to Reduce Unburned Hydrocarbon Emissions

2021-09-21
2021-01-1203
For controlling oxides of nitrogen (NOx) and particular matter (PM) emissions from diesel engines, various fuel and combustion mode modification strategies are investigated in the past. Low temperature combustion (LTC) is an alternative combustion strategy that reduces NOx and PM emissions through premixed lean combustion. Dual fuel reactivity-controlled compression ignition (RCCI) is a promising LTC strategy with better control over the start and end of combustion because of reactivity and equivalence ratio stratification. However, the unburned hydrocarbon (HC) and carbon monoxide (CO) emissions are significantly higher in RCCI, especially at part-load conditions. The present work intends to address this shortcoming by utilizing oxygenated alternative fuels. Considering the limited availability and higher cost, replacing conventional fuels completely with alternative fuels is not feasible.
Technical Paper

Improvement in Combustion Characteristics of Biodiesel by Reforming with Cross-Metathesis Reaction

2021-09-21
2021-01-1205
The boiling point curve of fatty acid methyl esters (FAME), or biodiesel fuel, can be adapted to that of diesel fuel by breaking FAME down into a low-molecular structure using a cross-metathesis reaction with a short-chain olefin. Reformulated FAME by a metathesis reaction consists mainly of medium-chain olefins and fatty acid methyl esters. In the present study, the engine performance and exhaust emissions from reformulated FAME were investigated through engine bench tests. Surrogate fuels made from typical chemical components of reformulated FAME were used to clarify the effects of respective components upon combustion. Surrogate fuels were made by mixing 1-decene, 1-tetradecene, methyl laurate, methyl palmitate, and methyl oleate to simulate the boiling point, oxygen mass concentration, and calorific value of reformed biodiesel of waste cooking oil methyl ester (WME). A single-cylinder diesel engine equipped with common-rail-type injection system was used.
Technical Paper

Evaluation of Sustainable Alternative Fuel from Waste Coffee Grounds

2021-09-21
2021-01-1206
In the frame of circular economy, wastes are perceived as sources not only for the recovery of high added-value compounds but also for energy production. Coffee is one of the most popular beverages with the consumption continuously increasing and generating huge amounts of solid residues in return. This solid waste after the extraction of the coffee beverage is known as Waste or Spent Coffee Grounds (WCG). Among others, the valorization has the potential to be directed as a bioresource for sustainable energy and particularly for the production of alternative liquid fuels for internal combustion engines. The aim of the current study is to formulate alternative fuel from WCG and to examine the fundamental properties per relevant specifications and requirements. Parameters related to stability, cold flow properties, lubricating characteristics and ignition quality are studied in comparison with other types of biodiesel fuel.
Technical Paper

Effects of Oxidation Upon Long-term Storage of Karanja Biodiesel on the Combustion and Emission Characteristics of a Heavy-Duty Truck Diesel Engine

2021-09-21
2021-01-1200
The presence of unsaturated methyl esters in biodiesel makes it susceptible to oxidation and fuel quality degradation upon long-term storage. In the present work, the effects of oxidation of Karanja biodiesel upon long-term storage on the combustion and emission characteristics of a heavy-duty truck diesel engine are studied. The Karanja biodiesel is stored for one year in a 200 litres steel barrel at room conditions to mimic commercial storage conditions. The results obtained show that compared to diesel, the start of injection of fresh and aged biodiesels are advanced by ~2-degree crank angle, and the ignition delay time is reduced. Aged biodiesel showed a slightly smaller ignition delay compares to fresh biodiesel. The fuel injection and combustion characteristics of fresh and aged biodiesels were similar at all the load conditions. Both fresh and aged biodiesels produced higher oxides of nitrogen (NOx) and lower smoke emissions compared to diesel.
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