The dynamics of technological catching-up : the case of Iran’s gas turbine industry

Majidpour, Mehdi

January 2011

Today, fostering gas-fired power plants is recognised as a significant step towards a low-carbon economy. Gas fired-power plants are favoured over other types of fossil-fuelled power plants due to their various advantages, including lower emissions, flexibility of technology, higher efficiency, short construction times and lower capital investment. The gas turbine is the main machine and the most technologically advanced part of a gas-fired power plant. There have been a limited number of companies in industrialised countries that have developed these sophisticated technologies over the last 50 years. The global market for land-based gas turbines has an oligopolistic structure. The evolution of these technologies has been greatly influenced by countries' government policies, and in particular energy policies. In this light, one question is: to what extent have industrialising countries built their technological capabilities in gas turbines? Consequently, one focus of interest here is the way in which, and the extent to which, industrialising countries have synthesised their indigenous technology development efforts with overseas technology inflows. Countries such as Iran, India and China, which have large and growing domestic electricity markets, are appropriate candidates for research in order to understand the possible technological gaps and associated dynamics between the industrialised and industrialising worlds. To answer these questions, this thesis research deals with Iran's gas turbine industry and, for the first time, systematically examines this industry in the context of a developing country. The study delves deeply into the dynamics of interactions between indigenous technology development and overseas technology inflows. It casts light upon the influences, challenges, and difficulties associated with technological catching-up processes. The framework of the analysis is based on an extensive literature review on technological catch-up, the substitution/complementarity debate, and the gas turbine industry. The framework was operationalized through qualitative interviews as well as supplementary documents. The thesis uses a ‘dynamic approach', and argues that understanding the interaction processes cannot be reduced to examining only the type of relationship between the two technology sources. Instead, far more attention needs to be devoted to analysing the complexity and associated influences on this relationship. The thesis also provides empirical insights into the development of gas turbine capabilities in India and China, the two largest emerging economies. It reveals that a high level of state involvement in developing countries is a prominent feature of the industry. It also demonstrates that the evolution of the industry also in both developed and developing countries is closely interrelated with each country's national energy policies.

338.4

Experimental Investigation Of Use Of Canola Oil As A Diesel Fuel

Ozdemir, Ali

01 September 2008

In this study, canola oil has been selected for the test on a diesel engine and its suitability as an alternative fuel has been examined. To decrease the high viscosity of canola oil, the effect of temperature on viscosity has been researched. Then the fuel delivery system has been modified to heat canola oil before injecting the oil into the combustion chamber. Also, ethanol has been tested as an additive by blending with canola oil. An experimental setup has been installed according to standards to carry out tests. The set up has been controlled with a computer to take measurements more precisely and to perform experiment automatically. Experimental investigations have been conducted on a four cylinder, direct injection diesel engine. Full load-variable speed tests have been conducted to evaluate engine performance parameters. In addition 13 mode ESC test cycle has been performed to determine the exhaust emissions. Engine performance and emissions characteristics of canola oil and canola-ethanol blend containing 30% ethanol have been compared with those of baseline diesel fuel. Experimental results show that engine performance decreased for canola oil. Addition of ethanol into canola oil has been noticed to improve performance a little with respect to pure canola oil. Although, maximum performance has been obtained with diesel fuel, minimum specifics energy cost is obtained with canola oil. It has been observed that hydrocarbon (HC) emissions decrease with canola oil, blending ethanol with canola oil increase HC emissions and maximum values are read for diesel fuel. Carbon monoxide (CO) emissions have been observed to be the highest for canola oil but blending ethanol has a decreasing effect on CO emissions. As for particulate matter (PM), use of canola oil has been seen to be more pollutant than diesel but adding ethanol in canola reduces PM emissions significantly.

Development Of A Navier-stokes Solver For Multi-block Applications

Erdogan, Erinc

01 September 2004

A computer code is developed using finite volume technique for solving steady twodimensional and axisymmetric compressible Euler and Navier-Stokes equations for internal flows by &ldquo / multi-block&rdquo / technique. For viscous flows, both laminar and turbulent flow properties can be used. Explicit one step second order accurate Lax-Wendroff scheme is used for time integration. Inviscid solutions are verified by comparing the results of test cases of a support project which was supported by ONERA/France for Turkey T-108, named &ldquo / 2-D Internal Flow Applications for Solid Propellant Rocket Motors&rdquo / . For laminar solutions, analytical flat plate solution is used for planar case and theoretical pipe flow solution is used for axisymmetric case for verification. Prandtl turbulent flow analogy is used in a flat plate solution to verify the turbulent viscosity calculation. The test cases solved with single-block code are compared with the ones solved with multi-block technique to verify the multi-block algorithm and good similarity is observed between single-block solutions and multi-block solutions. For the burning simulation of propellant of Solid Propellant Rocket Motors, injecting boundary is used. Finally, a segmented solid propellant rocket motor case is solved to show the multi-block algorithm&rsquo / s flexibility in solving complex geometries.

Možnosti zvětšení zdvihového objemu čtyřválcového motoru Zetor / The Possibilities of Displacement Increase of 4C Zetor Engine

Zloch, Jan

January 2016

Diploma thesis aims on mechanical design of new concept of Zetor UŘ III engine with displacement increase and solves calculations of main and pin hydrodynamic bearings of crankshaft. Creo 2 CAD software is used for preparing mechanical design of this new concept. For computation and analysis of hydrodynamic bearings multibody model of crankshaft mechanism is used with flexible FEM model of crankshaft for solving dynamics of mechanism and performing hydrodynamic analysis of bearings in FEV Virtual Engine. Results of this diploma thesis demonstrate the feasibility of new concept of engine and serve as a basis for next engineering tasks before realization of concept.

Exploration And Assessment of HCCI Strategies for a Multi-Cylinder Heavy-Duty Diesel Engine

Pandey, Sunil Kumar

January 2016

Homogeneous Charge Compression Ignition (HCCI) combustion is an alternative combustion mode in which the fuel is homogeneously mixed with air and is auto-ignited by compression. Due to charge homogeneity, this mode is characterized by low equivalence ratios and temperatures giving simultaneously low nitric oxide (NOx) and soot in diesel engines. The conventional problem of NOx-soot trade-off is avoided in this mode due to absence of diffusion combustion. This mode can be employed at part load conditions while maintaining conventional combustion at high load thus minimizing regulatory cycle emissions and reducing cost of after-treatment systems. The present study focuses on achieving this mode in a turbocharged, common rail, direct injection, four-cylinder, heavy duty diesel engine. Specifically, the work involves a combination of three-dimensional CFD simulations and experiments on this engine to assess both traditional and novel strategies related to fuel injection. The first phase of the work involved a quasi-dimensional simulation of the engine to assess potential of achieving HCCI. This was done using a zero-dimensional, single-zone HCCI combustion model with n-heptane skeletal chemistry along with a one-dimensional model of intake and exhaust systems. The feasibility of operation with realistic knock values with high EGR rate of 60% was observed. The second aspect of the work involved three-dimensional CFD simulations of the in-cylinder process with wall film prediction to evaluate injection strategies associated with Early Direct Injection (EDI). The extended Coherent Flame Model-3Zone (ECFM-3Z) was employed for combustion simulation of conventional CI and EDI, and was validated with experimental in-cylinder pressure data from the engine. A new Uniformity Index (UI) parameter was defined to assess charge homogeneity. Results showed significant in-homogeneity and presence of wall film for EDI. Simulations were conducted to assess improvement of charge homogeneity by several strategies; narrow spray cone angle, injection timing, multiple injections, intake air heating, Port Fuel Injection (PFI) as well as combination of PFI and EDI. The maximum UI achieved by EDI was 0.78. The PFI strategy could achieve UI of 0.95; however, up to 50% of fuel remained trapped in the port after valve closure. This indicated that except EDI, none of the above-mentioned strategies could help achieve the benefits of the HCCI mode. The third part of the work involved engine experimentation to assess the EDI strategy. This strategy produced lower soot than that of conventional CI combustion with very short combustion duration, but led to high knock and NOx which is attributed to pool fire burning phenomenon of the wall film, as confirmed by CFD. An Optimized EDI (OptimEDI) strategy was then developed based on results of CFD and Design of Experiments. The Optim EDI consisted of triple injections with split ratio of 41%-45%-14% and advancing the first injection. This strategy gave 20% NOx and soot reduction over the conventional CI mode. Although this strategy gave encouraging results, there was a need for more substantial reduction in emissions without sacrificing efficiency. Hence, a novel concept of utilizing air-assisted Injection (AAI) into the EGR stream was employed, as this implied injecting very small droplets of fuel into the intake which would have sufficient residence time to evaporate before reaching the cylinder, thereby enabling HCCI. The fourth and final part of the work involved engine experimentation with AAI, and combination of OptimEDI with AAI. Results with 20% EGR showed that 5 to 10% of AAI gave further reduction in NOx but not in soot. With experiments involving 48% EGR rate, there was soot reduction of 75% due to combined AAI-EDI. NOx was negligible due to the high EGR rate. Thus, the significant contribution of this work is in proving that combining AAI with EDI as a novel injection strategy leads to substantial NOx and soot reduction.

Low Temperature Combustion

Multi-Cylinder Heavy-Duty Diesel Engines

Diesel Motor

Diesel Engines

Early Direct Injection

Air-Assisted Injection

Combustion

Diesel Fuels

Diesel-Fueled Engines

Fuel Injection

Internal Combustion Engines

Computational Fluid Dynamics

Mechanical Engineering

Development Of An Advanced Methodology For Automotive IC Engine Design Optimization Using A Multi-Physics CAE Approach

Sehemby, Amardeep A Singh

09 1900

The internal combustion engine is synonyms with the automobile since its invention in late 19th century. The internal combustion engine today is far more advanced and efficient compared to its early predecessors. An intense competition exists today amongst the automotive OEMs in various countries and regions for stepping up sales and increasing market share. The pressure on automotive OEMs to reduce fuel consumption and emission is enormous which has lead to innovations of many variations in engine and engine-related technologies. However, IC engines are in existence for well more than a century and hence have already evolved to a highly refined state. Changes in IC engine are therefore largely incremental in nature. A deterrent towards development of an engine configuration that is significantly different from its predecessor is the phenomenal cost involved in prototyping. Thus, the only viable alternative in exploring new engine concepts and even optimizing designs currently in operation is through extensive use of CAE. In light of published work in the field of analysis of IC engines, current research effort is directed towards development of a rational methodology for arriving at a weight-optimized engine design, which simultaneously meets performance of various attributes such as thermal, durability, vehicle dynamics and NVH. This is in contrast to the current methodology adopted in industry, according to which separate teams work on aspects of engine design such as combustion, NVH (Noise, Vibration and Harshness), acoustics, dynamics, heat transfer and durability. Because of the involvement of heterogeneous product development groups, optimization of an engine for weight, which can have a significant impact on its power-to-weight ratio, becomes a slow process beset with manual interventions and compromise solutions. Thus, following the traditional approach, it is quite difficult to claim that an unambiguous weight-optimized design has been achieved. As a departure from the practiced approach, the present research effort is directed at the deployment of a single multi-physics explicit analysis solver, viz. LS-DYNA - generally known for its contact-impact analysis capabilities, for simultaneously evaluating a given engine design for heat transfer, mechanical and thermal loading, and vibration. It may be mentioned that only combustion analysis is carried out in an uncoupled manner, using proven phenomenological thermodynamic relations, to initially arrive at mechanical and thermal loading/boundary conditions for the coupled thermo-mechanical analysis. The proposed methodology can thus be termed as a semi-integrated technique and its efficacy is established with the case study of designing a single cylinder air-cooled diesel engine from scratch and its optimization.

Internal Combustion Engine

Computer Aided Engineering (CAE)

Single Cylinder Diesel Engines

Automotive Internal Combustion Engines

Automotive IC Engine

Engines - Development

Heat Engineering

Calibration reduction in internal combustion engine fueling control: modeling, estimation and stability robustness

Meyer, Jason

27 July 2011

No description available.

Automotive Engineering

Electrical Engineering

Mechanical Engineering

Internal Combustion Engines

Air Path Modeling

Oxygen Concentration Estimation

Fueling Control

Cylinder Imbalance

Robustness

Cailbration Reduction

Diesel Engines

Gasoline Engines

AFR Control

Oxygen Dynamics

Gas Mixing and Transport Dynamics

Μελέτη του ενεργειακού συστήματος της Ικαρίας

Κατσάφαρος, Ιωάννης

15 March 2012

Η παρούσα διπλωματική εργασία συνιστά μια επισκόπηση του Συστήματος Ηλεκτρικής Ενέργειας της νήσου Ικαρίας. Πρόκειται για ένα Αυτόνομο Σύστημα Παραγωγής, που βασίζεται σε έναν Τοπικό Σταθμό Παραγωγής, ισχύος 14 MW, που λειτουργεί με εμβολοφόρες πετρελαιομηχανές. Σκοπός της εργασίας είναι τόσο η μελέτη του συγκεκριμένου συστήματος, αλλά και η γενικότερη προσέγγιση των ΣΗΕ, και ειδικά των ΑΣΠ με τις ιδιαιτερότητες που τα χαρακτηρίζουν. Στην συνέχεια χρησιμοποιείται το λογισμικό προσομοίωσης HOMER Energy, με το οποίο κατασκευάζεται ένα μοντέλο του ΣΗΕ. Το λογισμικό εκτελεί τεχνοοικονομική ανάλυση της λειτουργίας συστημάτων, σε όλο τον κύκλο ζωής τους, και εξάγει συμπεράσματα όσον αφορά την βιωσιμότητα και την βέλτιστη μορφή τους. Με το εργαλείο αυτό διερευνώνται ζητήματα όπως η δυνατότητα διείσδυσης Ανανεώσιμων Πηγών Ενέργειας στο ΑΣΠ Ικαρίας, καθώς και η μελλοντική λειτουργία του συστήματος, μετά την ένταξη του κατασκευαζόμενου Υβριδικού Ενεργειακού Έργου (αιολικού - υδροηλεκτρικού). Το πρότυπο αυτό έργο, ισχύος μέχρι 6,8 MW, θα επιτρέπει την αποθήκευση ενέργειας, με την μορφή της αντλησιοταμίευσης, σε δεξαμενή νερού. Η μελέτη του ΣΗΕ Ικαρίας συμπληρώνεται με την ανασκόπηση του ζητήματος των κεραυνικών πληγμάτων στις γραμμές μέσης τάσης, όπου γίνεται υπολογισμός των αναμενόμενων σφαλμάτων, σε αντιπαράθεση με καταγεγραμμένα, ενώ προτείνονται λύσεις για την μείωση των προβλημάτων που δημιουργούν οι υπερτάσεις. Η συλλογή των στοιχείων της εργασίας έγινε από επιτόπιες καταγραφές, από δεδομένα που μας διατέθηκαν και από δημοσιευμένες πληροφορίες. Τα στοιχεία αυτά παρουσιάζονται κατά την επισκόπηση, μαζί με απαραίτητες διευκρινήσεις και παραπομπές στην βιβλιογραφία. Στην συνέχεια με τα στοιχεία αυτά κατασκευάζεται το μοντέλο του συστήματος, γίνονται οι υπολογισμοί, και συγκρίνονται τα αποτελέσματα. Αφού στο 1ο Κεφάλαιο δοθούν οι απαραίτητες εισαγωγικές διευκρινήσεις για τα ΣΗΕ και τα ΑΣΠ, και μια αναφορά στις ΑΠΕ, παρουσιάζονται στο 2ο Κεφάλαιο γεωγραφικά στοιχεία για το νησί, και μια σύντομη ιστορική αναδρομή στο ενεργειακό του σύστημα. Η επισκόπηση του ΑΣΠ Ικαρίας ξεκινά στο 3ο Κεφάλαιο με τα στοιχεία της Παραγωγής ενέργειας, περιγράφοντας αναλυτικά τον ΤΣΠ, τις μονάδες και τις εγκαταστάσεις του και αναλύοντας την λειτουργία του. Περιγράφεται έπειτα μία εγκατεστημένη Ανεμογεννήτρια των 600 kW, εξηγείται η λειτουργία της και σημειώνεται η επίδρασή της στην παραγωγή. Παρουσιάζεται το Υβριδικό Ενεργειακό Έργο, οι αρχές λειτουργίας, τα επιμέρους στοιχεία και αναφέρεται η αναμενόμενη συμπεριφορά του. Στην συνέχεια στο 4ο Κεφάλαιο γίνεται η επισκόπηση της Διανομής ενέργειας. Παρουσιάζεται το εναέριο δίκτυο Μέσης Τάσης, ο εξοπλισμός των γραμμών και η γεωγραφική εξάπλωση. Περιγράφονται τα δίκτυα διανομής Χαμηλής Τάσης, από τους Υποσταθμούς μέχρι τους καταναλωτές. Στο 5ο Κεφάλαιο η λειτουργία του ΣΗΕ εξετάζεται σαν σύνολο, με στοιχεία για την παραγόμενη ενέργεια, 28 GWh ετησίως, την εποχιακή και ημερήσια διακύμανση της ισχύος και την μελλοντική αύξηση της κατανάλωσης. Επισημαίνονται έπειτα οι κυριότερες αιτίες σφαλμάτων, οι μηχανισμοί δημιουργίας των συμβάντων κυρίως από καιρικά φαινόμενα, καθώς και η καταγραφή και η αποκατάσταση των βλαβών. Τέλος, στο 6ο Κεφάλαιο παρουσιάζεται η μελλοντική εξέλιξη του συστήματος, μετά την ένταξη του Υβριδικού Έργου, την αναβάθμιση του ΤΣΠ και του δικτύου ΜΤ, και οι προοπτικές για επιπλέον ΑΠΕ. Εκτός από τα Αιολικά συστήματα, εξετάζονται τα Φωτοβολταϊκά και η Γεωθερμία. Αναφέρεται και η ενδεχόμενη διασύνδεση του νησιού με το ηπειρωτικό δίκτυο της χώρας. Στο 7ο κεφάλαιο γίνεται η προσομοίωση του ΣΗΕ, με το λογισμικό HOMER. Παρουσιάζεται το πρόγραμμα, και οι οικονομικές έννοιες που χρησιμοποιεί για την αξιολόγηση των συστημάτων. Η διαδικασία μοντελοποίησης παρουσιάζεται αναλυτικά. Αρχικά κατασκευάζεται το μοντέλο του παρόντος συστήματος, όπου διαπιστώνεται η ορθότητα του μοντέλου σε σχέση με το πραγματικό σύστημα, και σημειώνεται η θετική οικονομική επίδραση της Α/Γ στο ΑΣΠ. Από την άλλη, διαφαίνεται η αδυναμία του προγράμματος να αντιληφθεί τα όρια διείσδυσης ΑΠΕ. Στην συνέχεια, λαμβάνοντας υπόψιν το παραπάνω ζήτημα, εμπλουτίζεται το μοντέλο με επιπλέον ΑΠΕ, και προκύπτει το συμπέρασμα ότι συμφέρει πρωτίστως η εγκατάσταση άλλων 2 Α/Γ, και 200 kWp Φ/Β συστημάτων, αλλά δευτερευόντως και άλλων συνδυασμών, μέχρι 7 Α/Γ συνολικά. Έπειτα, κατασκευάζεται το μοντέλο του Υβριδικού, προσεγγιστικά, λόγω έλλειψης υποστήριξης από το HOMER. Τα αποτελέσματα της εξομοίωσης της λειτουργίας του είναι σε συμφωνία με τα αναμενόμενα. Προκύπτουν επίσης τα εξής συμπεράσματα: (α) Το Έργο είναι οικονομικά βιώσιμο. (β) Η οικονομική επίδοση του Έργου βελτιώνεται με δέσμευση επιπλέον νερού στις δεξαμενές για αντλησιοταμίευση. (γ) Το Έργο υποστηρίζει οικονομικώς Ανεμογεννήτριες μέχρι 10 MW και Φ/Β 2,5 MWp. (δ) Το Έργο δεν επαρκεί για την μελλοντική αύξηση της κατανάλωσης, ακόμα και με επιπλέον ΑΠΕ, εκτός και αν αυξηθεί παράλληλα η ισχύς του ΤΣΠ. Η εργασία ολοκληρώνεται στο 8ο Κεφάλαιο, με το ζήτημα της θεωρητικής πρόβλεψης σφαλμάτων από κεραυνούς. Αφού παρουσιαστεί το φαινόμενο και οι επιπτώσεις του στις γραμμές, γίνεται υπολογισμός των αναμενόμενων σφαλμάτων σε όλο το δίκτυο ΜΤ της Ικαρίας, μήκους 120 km, με την χρήση (α) της απλής μεθόδου Ισοδύναμης Συλλεκτήριας Επιφάνειας, και (β) της μεθόδου που προτείνεται από τον κανονισμό IEEE-1410, περί βελτίωσης της αντικεραυνικής συμπεριφοράς ηλεκτρικών γραμμών. Τα αποτελέσματα δείχνουν πολύ λιγότερα σφάλματα από τα καταγεγραμμένα κάθε χρόνο (90 έναντι 175 μέσο όρο). Εξηγούνται οι βασικότερες αιτίες, όπως η γενικότητα των υπολογισμών, η ασάφεια στις καταγραφές, αλλά και το γεγονός ότι συγκεκριμένα γεωγραφικά σημεία καταπονούνται ιδιαίτερα από κεραυνικά πλήγματα και είναι υπεύθυνα για πολλά σφάλματα. Το τελευταίο, επιδεικνύεται με την μελέτη ενός ορεινού εκτεθειμένου κλάδου των γραμμών, μήκους 2 km, που παρουσιάζει 20,5 ιδιαίτερα καταστροφικά σφάλματα ετησίως, έναντι των 1,5 που αναμένονται. Προτείνονται τέλος κάποιοι οικονομικοί τρόποι προστασίας, με περισσότερους απαγωγείς υπερτάσεων και βελτίωση της γείωσης και της στάθμης μόνωσης της γραμμής. / This diploma thesis is an overview of the Electrical Power System of Ikaria Island. It is an Autonomous Production System, based on a Local Station with diesel engines. The thesis describes the Station, an installed Wind Turbine, and the Hybrid Power Plant under construction. It presents the Distribution System, consisting of overhead medium voltage power lines, as well as the low voltage distribution wiring. It includes information about the power production, the main system faults, and the future development. The study is supplemented by a simulation of the system, using HOMER Energy software, in order to investigate the renewable penetration potential, and to validate the operation of the Hybrid Power Plant. The thesis is concluded with the estimation of lightning faults on the power lines of the island's grid.

Ικαρία

Μηχανές diesel

Ανεμογεννήτριες

Αντλησιοταμίευση

Γραμμές μέσης τάσης

Προσομοίωση

Κεραυνικά πλήγματα

621.312 1

Autonomous power systems

Ikaria

Local power stations

Diesel engines

Wind turbines

Hybrid power plants

Small hydroelectric stations

Pump storage

Medium voltage lines

Simulation

HOMER

Lightning strikes

Advanced Control Strategies for Diesel Engine Thermal Management and Class 8 Truck Platooning

John Foster (9179864)

29 July 2020

<div> <div> <div> <p>Commercial vehicles in the United States account for a significant fraction of greenhouse gas emissions and NOx emissions. The objectives of this work are reduction in commercial vehicle NOx emissions through enhanced aftertreatment thermal management via diesel engine variable valve actuation and the reduction of commercial vehicle fuel consumption/GHG emissions by enabling more effective class 8 truck platooning. </p> <p><br></p><p>First, a novel diesel engine aftertreatment thermal management strategy is proposed which utilizes a 2-stroke breathing variable value actuation strategy to increase the mass flow rate of exhaust gas. Experiments showed that when allowed to operate with modestly higher engine-out emissions, temperatures comparable to baseline could be achieved with a 1.75x exhaust mass flow rate, which could be beneficial for heating the SCR catalyst in a cold-start scenario. </p> <p><br></p><p>Second, a methodology is presented for characterizing aerodynamic drag coefficients of platooning trucks using experimental track-test data, which allowed for the development of high-fidelity platoon simulations and thereby enabled rapid development of advanced platoon controllers. Single truck and platoon drag coefficients were calculated for late model year Peterbilt 579’s based on experimental data collected during J1321 fuel economy tests for a two-truck platoon at 65 mph with a 55’ truck gap. Results show drag coefficients of 0.53, 0.50, and 0.45 for a single truck, a platoon front truck, and a platoon rear truck, respectively. </p> <p><br></p><p>Finally, a PID-based platoon controller is presented for maximizing fuel savings and gap control on hilly terrain using a dynamically-variable platoon gap. The controller was vetted in simulation and demonstrated on a vehicle in closed-course functionality testing. Simulations show that the controller is capable of 6-9% rear truck fuel savings on a heavily-graded route compared to a production-intent platoon controller, while increasing control over the truck gap to discourage other vehicles from cutting in. </p></div></div></div>

Control Systems, Robotics and Automation

Automation and Control Engineering

Autonomous Vehicles

commercial vehicles

platooning

diesel engines

aftertreatment thermal management

NOx

2-stroke breathing

platoon aerodynamics

platoon controller

variable gap platooning

route-optimized gap growth

aftertreatment warm up

aftertreatment performance

platoon drag coefficients

class 8 truck platooning

SCR warm up

Experimental Characterisation of Real Driving Cycles in Diesel Passenger Vehicles under Different Environmental Conditions

Redondo Puelles, Fernando

01 September 2023

[ES] El futuro de los Motores de Combustión Interna en el sector de la automoción parece incierto, en cierta medida, debido a los cambios recientes en las normativas de homologación. Las regulaciones actuales han reducido considerablemente los límites de emisiones contaminantes , así como también han introducido pruebas más exigentes. La introducción de ciclos de conducción reales supuso un reto para los fabricantes de automóviles a la hora de homologar sus vehículos, ya que el tradicional y poco exigente ciclo de certificación del New European Driving Cycle (NEDC) ha sido sustituido por ciclos más severos como el World Light-Duty Test Cycle (WLTC) y Real Driving Emissions (RDE). Este estudio, en primer lugar, presenta una metodología para implementar ciclos RDE en un banco de ensayos de motores. Aun sabiendo que la esencia de la regulación RDE es evaluar las condiciones reales de conducción, reproducir los ciclos RDE en un banco de pruebas es de gran interés ya que las condiciones controladas y reproducibles que se pueden lograr en un laboratorio aportan información valiosa para entender el comportamiento del motor en conducción real, y por lo tanto contribuyen al desarrollo del motor. Este documento aplica la normativa más reciente de la Comunidad Europea y establece los pasos imprescindibles para realizar un ciclo RDE en un banco de pruebas de motores. En segundo lugar, gracias a que se ha demostrado la viabilidad de una sala de pruebas para realizar ciclos RDE, se han realizado diferentes ciclos RDE bajo diferentes solicitaciones dinámicas y condiciones externas como tempera- tura ambiente o temperatura del aire de admisión. Posteriormente, se analizó la emisión de contaminantes y el consumo de combustible con el fin de caracterizar los ciclos y condiciones de RDE. Además, se ha llevado a cabo una comparación de las emisiones y el consumo de combustible de las pruebas RDE frente a las obtenidas en las pruebas de estado estacionario, donde se encontraron discrepancias bastante bajas / [CA] El futur dels Motors de Combustió Interna al sector de l'automoció sembla incert, en certa mesura, a causa dels canvis recents a les normatives d'homologació. Les regulacions actuals han reduït considerablement els límits d'emissions contaminants i també han introduït proves més exigents. La introducció de cicles de conducció reals va suposar un repte per als fabricants d'automòbils a l'hora d'homologar els seus vehicles, ja que el tradicional i poc exigent cicle de certificació del New European Driving Cycle (NEDC) ha estat substituït per cicles més severs com el World Light-Duty Test Cycle (WLTC) i Real Driving Emissions (RDE). Aquest estudi, en primer lloc, presenta una metodologia per implemen- tar cicles RDE a un banc d'assajos de motors. Tot i saber que l'essència de la regulació RDE és avaluar les condicions reals de conducció, reproduir els cicles RDE en un banc de proves és de gran interès ja que les condicions controlades i reproduïbles que es poden aconseguir en un laboratori aporten informació valuosa per entendre el comportament del motor en conducció real, i per tant contribueixen al desenvolupament del motor. Aquest document aplica la normativa més recent de la Comunitat Europea i estableix els passos imprescindibles per fer un cicle RDE en un banc de proves de motors. En segon lloc, gràcies al fet que s'ha demostrat la viabilitat d'una sala de proves per fer cicles RDE, s'han realitzat diferents cicles RDE sota diferents sol·licitacions dinàmiques i condicions externes com ara temperatura ambient o temperatura de l'aire d'admissió. Posteriorment, es va analitzar l'emissió de contaminants i el consum de combustible per tal de caracteritzar els cicles i les condicions de RDE. A més, s'ha dut a terme una comparació de les emissions i el consum de combustible de les proves RDE davant de les obtingudes a les proves d’estat estacionari, on es van trobar discrepàncies força baixes- / [EN] The future of Internal Combustion Engines in the automotive sector seems uncertain, to some extent, due to the recent changes in type approval regulations. Current regulations have considerably reduced the engine pollutant emissions limits, as well as introduced more demanding testing conditions. The introduction of real driving cycles presented a challenging issue for car manufacturers when homologating their vehicles, since the traditional and undemanding New European Driving Cycle (NEDC) certification cycle has been replaced by more severe cycles such as World Light-Duty Test Cycle (WLTC) and Real Driving Emissions (RDE). This study, in the first place, presents a methodology for implementing RDE cycles in an engine test bench. Even knowing that the essence of RDE regulation is to assess actual driving conditions, reproducing RDE cycles in a test bench is of great interest since, the controlled and reproducible conditions that can be achieved in a laboratory lead to valuable information to understand engine behaviour in real driving conditions, and therefore contribute to engine development. This document applies the most recent European Community regulation and sets the essential steps to carry out an RDE cycle in an engine test bench. Secondly, as the feasibility of a test bench to perform RDE cycles has been proven, different RDE cycles have been performed under different dynamic solicitations and external conditions such as ambient or intake air temperatures. After that, the pollutant's emission and fuel mass consumption were analysed with the aim of characterising RDE cycles and conditions. Furthermore, a comparison of RDE test emissions and fuel consumption versus those obtained from steady-state tests has been carried out, where very small discrepancies were found. / Redondo Puelles, F. (2023). Experimental Characterisation of Real Driving Cycles in Diesel Passenger Vehicles under Different Environmental Conditions [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/196653

Emisiones contaminantes

Emisiones en conducción real (RDE)

Motores diesel Dióxido de carbono (CO2)

Óxidos de nitrógeno (NOx)

Eficiencia del motor

Regulación de emisiones

Emision regulations

World Light-Duty Test Cycle (WLTC)

Pollutant emissions

Real Driving Emissions (RDE)

Diesel engines

Carbon dioxide (CO2)

Motores de combustión

Nitrogen oxides (NOx)

Engine efficiency

MAQUINAS Y MOTORES TERMICOS