Robust Design Evolution And Impact Of In Cylinder Pressure Sensors To Combustion Control And Optimization

Robust Design Evolution and Impact of In-Cylinder Pressure Sensors to Combustion Control and Optimization

Author : Kamran Eftekhari Shahroudi

Publisher :

Page : 248 pages

File Size : 12,81 MB

Release : 2008

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ISBN :

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Book Description

In-Cylinder Pressure Sensors (ICPS) today are close to satisfying the robustness, performance and cost requirements for application to closed loop control and monitoring of production automotive engines. Using the Robust Design framework as a compass, this thesis first checks the evidence for emergence followed by tracking the evolution of the sensor component itself and its application to robust closed loop control of the combustion process in internal combustion engines. After identifying the potential system level impact of the emerging ICPS technology, System Dynamic and Technology Strategy frameworks are used to find spillover triggers and to recommend a number of strategic options to generate and capture value for integrated system solution providers so that they can beat the very stable status quo that persists in the slow and mature prime mover industries. In addition, Chapter 2 gives a data driven method for identifying the Skills needed for suppliers to realize the above recommendations. This method is based on collective intelligence of 690 experienced professionals with 20 years of work experience on average from 40 targeted companies, representing a large body of engineering and managerial experience in battling complex engineering system hurdles. This approach is more effective than blindly copying the prominent integrated system solution providers or OEM's, because a side effect of long term incremental innovation in the mature prime mover industry is that the underlying reasons for their success is ingrained in their "tacit knowledge" and "organizational furniture" and hence not explicitly understood.



Wide Bandgap Nanowires

Author : Tuan Anh Pham

Publisher : John Wiley & Sons

Page : 361 pages

File Size : 24,87 MB

Release : 2022-07-04

Category : Technology & Engineering

ISBN : 1119774381

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Book Description

WIDE BANDGAP NANOWIRES Comprehensive resource covering the synthesis, properties, and applications of wide bandgap nanowires This book presents first-hand knowledge on wide bandgap nanowires for sensor and energy applications. Taking a multidisciplinary approach, it brings together the materials science, physics and engineering aspects of wide bandgap nanowires, an area in which research has been accelerating dramatically in the past decade. Written by four well-qualified authors who have significant experience in the field, sample topics covered within the work include: Nanotechnology-enabled fabrication of wide bandgap nanowires, covering bottom-up, top-down and hybrid approaches Electrical, mechanical, optical, and thermal properties of wide bandgap nanowires, which are the basis for realizing sensor and energy device applications Measurement of electrical conductivity and fundamental electrical properties of nanowires Applications of nanowires, such as in flame sensors, biological sensors, and environmental monitoring For materials scientists, electrical engineers and professionals involved in the semiconductor industry, this book serves as a completely comprehensive resource to understand the topic of wide bandgap nanowires and how they can be successfully used in practical applications.



Combustion in Piston Engines

Author : A. K. Oppenheim

Publisher : Springer

Page : 160 pages

File Size : 42,81 MB

Release : 2013-01-18

Category : Technology & Engineering

ISBN : 9783662062982

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Book Description

Combustion in Piston Engines presents the technique of pressure diagnostics to measure the fuel consumption in an engine cylinder and to monitor the operation of micro-electronic systems for its control. It provides a recipe for bridging the gap between the hydrocarbon-fed combustion technology of automotive powerplants of today and electro-magnetic technologies of the future. The author proposes and introduces a model for the design of a MECC (micro-electronically controlled combustion) systems to modulate combustion in engine cylinders. This system yields significant reduction in the formation of pollutants and the consumption of fuel, so that, eventually, emissions using any clean hydrocarbon fuel will be acceptable and gas mileage could be doubled.



In-Cylinder Pressure

Author : Brice Hildebrand

Publisher :

Page : 42 pages

File Size : 32,76 MB

Release : 2021-03-29

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ISBN :

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Book Description

In-cylinder pressure is perhaps the most important parameter for engine diagnosis and control as it contains useful information on the phenomenon taking place in the combustion chamber. The WCAE proposed uses only a single accelerometer per cylinder and a tachometer for constantly monitoring the combustion process of large internal combustion engines, in power generation plants.



EVALUATION OF SENSORS AND STRATEGIES FOR CLOSED LOOP COMBUSTION CONTROL OF A GASOLINE SPARK-IGNITION TURBOCHARGED DIRECT INJECTION ENGINE

Author :

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Page : pages

File Size : 40,80 MB

Release : 2016

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Abstract : Fuel economy has become one of the top design parameters of modern passenger cars and light trucks. Recent CAFE regulations have required manufactures to push the fuel economy of US passenger vehicles under 8600 lb GVW beyond the limit of conventional technology [1]. In order to continue to meet the increasing requirements for fuel economy while still satisfying other design criteria including safety, tailpipe emissions, performance, and comfort, more expensive technology must be integrated into each vehicle specifically the powertrain. Diminishing returns of the payback period of fuel savings vs. higher initial vehicle cost has now become longer than the life of the vehicle. Because of this, the dollar per fuel economy benefit of each technology is being closely examined and investigated [1]. In this thesis, the potential fuel economy benefit of a technology was studied for feasibility and potential; the technology was on-board cylinder pressure sensors and the data available from them. Two low-cost cylinder pressure sensor types from two suppliers were evaluated and analyzed and compared to a laboratory sensor of known performance characteristics. Further the benefits from real-time cylinder pressure feedback capable of improving part load combustion phasing, combustion variability management were studied. Two areas of fuel consumption reduction which this thesis concentrates on are the improvement of locating spark advance through combustion duration feedback, and the extension of the dilute limit through combustion cycle stability measurement during transient operating conditions. By allowing the engine to run at more dilute conditions and locating spark advance to produce combustion durations closer to MBT, lower fuel consumption is possible. Vehicle EPA drive cycle data was used to examine areas of operation that were not operating at maximum efficiency to determine the fuel economy benefit that could be achieved through the availability of cylinder pressure data in terms of burn location and running dilute/lean. Methods to improve fuel economy in the engine such as dilution of air charge can have a negative effect on combustion stability [2]. In a laboratory environment combustion stability is measured during steady state operation using cylinder pressure data typically using a 100 cycle moving window for averaging. Transient engine operating conditions present in every drive cycle do not allow for calculating combustion stability in this way because it cannot be assumed that even two cycles are at the same operating conditions. If cylinder pressure sensor data were available on a production vehicle, the ability to measure combustion stability would exist but the transient measurement of combustion stability poses challenges which are discussed. A metric is developed to make comparable measurements in real time and the outcomes and benefits available from these measurements are evaluated.



Reciprocating Engine Combustion Diagnostics

Author : Rakesh Kumar Maurya

Publisher :

Page : 616 pages

File Size : 49,73 MB

Release : 2019

Category : Internal combustion engines

ISBN : 9783030119553

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Book Description

This book deals with in-cylinder pressure measurement and its post-processing for combustion quality analysis of conventional and advanced reciprocating engines. It offers insight into knocking and combustion stability analysis techniques and algorithms in SI, CI, and LTC engines, and places special emphasis on the digital signal processing of in-cylinder pressure signal for online and offline applications. The text gives a detailed description on sensors for combustion measurement, data acquisition, and methods for estimation of performance and combustion parameters. The information provided in this book enhances readers' basic knowledge of engine combustion diagnostics and serves as a comprehensive, ready reference for a broad audience including graduate students, course instructors, researchers, and practicing engineers in the automotive, oil and other industries concerned with internal combustion engines. Maximizes readers' understanding of the construction, working principles, installation, signal processing and limitations of the transducers used for combustion analysis; Provides a range of different models for estimating heat release and heat transfer for combustion quality analysis; Describes statistical and chaotic methods used for combustion stability analysis and the different knock indices and combustion noise metrics evaluated from cylinder pressure signal; Reinforces concepts presented with end of chapter summary discussions and questions; Explains methods used for estimation of engine parameters such as TDC, compression ratio, air-fuel ratio, residual gas fraction and wall temperature using in-cylinder pressure measurement;.



Introduction to Modeling and Control of Internal Combustion Engine Systems

Author : Lino Guzzella

Publisher : Springer Science & Business Media

Page : 303 pages

File Size : 23,4 MB

Release : 2013-03-14

Category : Technology & Engineering

ISBN : 3662080036

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Book Description

Internal combustion engines still have a potential for substantial improvements, particularly with regard to fuel efficiency and environmental compatibility. These goals can be achieved with help of control systems. Modeling and Control of Internal Combustion Engines (ICE) addresses these issues by offering an introduction to cost-effective model-based control system design for ICE. The primary emphasis is put on the ICE and its auxiliary devices. Mathematical models for these processes are developed in the text and selected feedforward and feedback control problems are discussed. The appendix contains a summary of the most important controller analysis and design methods, and a case study that analyzes a simplified idle-speed control problem. The book is written for students interested in the design of classical and novel ICE control systems.



Advanced Start of Combustion Sensor Phases I and II-A

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Page : pages

File Size : 35,29 MB

Release : 2010

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Homogeneous Compressed Charge Ignition (HCCI) has elevated the need for Start of Combustion (SOC) sensors. HCCI engines have been the exciting focus of engine research recently, primarily because HCCI offers higher thermal efficiency than the conventional Spark Ignition (SI) engines and significantly lower NOx and soot emissions than conventional Compression Ignition (CI) engines, and could be fuel neutral. HCCI has the potential to unify all the internal combustion engine technology to achieve the high-efficiency, low-emission goal. However, these advantages do not come easy. It is well known that the problems encountered with HCCI combustion center on the difficulty of controlling the Start of Combustion. TIAX has an SOC sensor under development which has shown promise. In previous work, including a DOE-sponsored SBIR project, TIAX has developed an accelerometer-based method which was able to determine SOC within a few degrees crank angle for a range of operating conditions. A signal processing protocol allows reconstruction of the combustion pressure event signal imbedded in the background engine vibration recorded by the accelerometer. From this reconstructed pressure trace, an algorithm locates the SOC. This SOC sensor approach is nonintrusive, rugged, and is particularly robust when the pressure event is strong relative to background engine vibration (at medium to high engine load). Phase I of this project refined the previously developed technology with an engine-generic and robust algorithm. The objective of the Phase I research was to answer two fundamental questions: Can the accelerometer-based SOC sensor provide adequate SOC event capture to control an HCCI engine in a feedback loop? And, will the sensor system meet cost, durability, and software efficiency (speed) targets? Based upon the results, the answer to both questions was 'YES'. The objective of Phase II-A was to complete the parameter optimization of the SOC sensor prototype in order to reach a juncture where plans can be and are discussed with an industry partner for how best to perform a more detailed implementation of the TIAX SOC technology on an HCCI engine system. This occurred, as evidenced the number of potential commercialization partners shown in Table 4. Potential Commercialization Partners Contacted (up to date as of January 31, 2010). During the two phases, a robust, engine-generic algorithm was developed that met the desired targets and was shown to work extremely well for HCCI engine operation.





Process Monitoring with Optical Fibers and Harsh Environment Sensors

Author : Michael A. Marcus

Publisher :

Page : 346 pages

File Size : 25,35 MB

Release : 1999

Category : Technology & Engineering

ISBN :

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Book Description

The 35 papers in this volume were presented at the Industrial and Environmental Monitors and Biosensors Symposium, January 1999. They are divided into nine sessions addressing subjects such as: sensors for energy industry; sensors for engine industry; and sensors for materials evaluation.