A Study of the Two Wheeler Retarder Type Dynamometer System

Similar documents
Development of Compact Chassis Dynamometer System for Two Wheeler Vehicle

Electromagnetic Field Analysis for Permanent Magnet Retarder by Finite Element Method

CHAPTER 4 : RESISTANCE TO PROGRESS OF A VEHICLE - MEASUREMENT METHOD ON THE ROAD - SIMULATION ON A CHASSIS DYNAMOMETER

G Prasad 1, Venkateswara Reddy M 2, Dr. P V N Prasad 3, Dr. G Tulasi Ram Das 4

Effect of prime mover speed on power factor of Grid Connected low capacity Induction Generator (GCIG)

Design of Chassis Dynamometer for Light Motor Vehicle Service Stations

Surface Coating on Engine Valve

Heat Transfer Enhancement for Double Pipe Heat Exchanger Using Twisted Wire Brush Inserts

Page 1. Design meeting 18/03/2008. By Mohamed KOUJILI

DESIGN AND ANALYSIS OF EXHAUST VALVE SPRINGS IN IC ENGINES

Load Frequency Control of a Two Area Power System with Electric Vehicle and PI Controller

The instantaneous torque is pulsating. The average value of the torque is

Reducing the Structural Mass of a Real- World Double Girder Overhead Crane

Comparison Of Multibody Dynamic Analysis Of Double Wishbone Suspension Using Simmechanics And FEA Approach

Electromagnetic Braking

Design and Fabrication of Pneumatic Suspension System in Two Wheeler

A Practical Guide to Free Energy Devices

NOTICE. The above identified patent application is available for licensing. Requests for information should be addressed to:

Design And Analysis Of Two Wheeler Front Wheel Under Critical Load Conditions

Vibration Measurement and Noise Control in Planetary Gear Train

One-Cycle Average Torque Control of Brushless DC Machine Drive Systems

Design Analysis and Optimization of Disc Brake

VARIABLE FREQUENCY DRIVE AND ITS INDUSTRIAL APPLICATIONS

DOWNLOAD OR READ : THE INDUCTION MACHINES DESIGN HANDBOOK SECOND EDITION ELECTRIC POWER ENGINEERING SERIES PDF EBOOK EPUB MOBI

Transmission Braking System By Using Electromagnetic Clutch

WB 23 & WB 27. High-Speed Eddy-Current Dynamometers WB 23 & WB 27. Features. Description. Operating principles

Principles of Electrical Engineering

Design, Development of Dual Mass Flywheel and Comparative Testing with Conventional Flywheel

DESIGN AND DEVELOPMENT OF TREADMILL TO GENERATE ELECTRICITY BY USING MECHANICAL ENERGY

CHAPTER THREE DC MOTOR OVERVIEW AND MATHEMATICAL MODEL

MEASUREMENT OF RUNNING RESISTANCE BY TORQUEMETER METHOD. A.Müschen, E.Dewulf, P. Bailey, C.Hosier

Study of Inlet Guide Vanes for Centrifugal Compressor in Miniature Gas-Turbines

SYLLABUS. osmania university UNIT - I UNIT - II UNIT - III UNIT - IV CHAPTER - 1 : PRINCIPLES OF ELECTRO-MECHANICAL ENERGY CONVERSION CHAPTER - 2 :

Design and Fabrication of Automated Hacksaw Machine

Testing Of Fluid Viscous Damper

Design and Development of a Dielectric Sensor to measure the alcohol concentration on Flexible Fuel Vehicles

ADVANCES in NATURAL and APPLIED SCIENCES

DEVELOPMENT OF HYDRAULIC BRAKE DESIGN SYSTEM APPLICATION

Semi-Active Suspension for an Automobile

Eddy current braking experiment using brake disc from aluminium series of Al6061 and Al7075

A New Control Algorithm for Doubly Fed Induction Motor with Inverters Supplied by a PV and Battery Operating in Constant Torque Region

Institute of Technology, Nirma University B. Tech. Sem. V: Electrical Engineering 2EE305: ELECTRICAL MACHINES II. Handout: AC Commutator Motors

Modelling and Simulation Analysis of the Brushless DC Motor by using MATLAB

Design and Fabrication of Sequencing Circuit with Single Double Acting Cylinder

Design and Analysis of suspension system components

Science 30 Unit C Electromagnetic Energy

ANALYSIS AND IMPROVEMENT OF AIR-GAP BETWEEN INTERNAL CYLINDER AND OUTER BODY IN AUTOMOTIVE SHOCK ABSORBER

Protection for 2500KVA High Tension Transformer Ankita S.Kulkarni 1, Priyanka S.Dhayarkar 2, Harsha H.Ambure 3, Ashwini S.Shinde 4

DESIGN AND ANALYSIS OF CAR RADIATOR BY FINITE ELEMENT METHOD

Remy HVH250 Application Manual Remy HVH250 Application Manual

Student, Mechanical Engineering PVPIT, Bavdhan, Pune, Savitribai Phule Pune University

Scope for Electrical Machine Design. Objectives. Design and Engineering. Course Description. 23-Dec-16 DESIGN OF ELECTRICAL MACHINES AN OVERVIEW

Design and Fabrication of Regenerative Braking System and Modifying Vehicle Dynamics

Modal analysis of Truck Chassis Frame IJSER

*Shown with optional high pressure blowers

Mechatronics Chapter 10 Actuators 10-3

PROTOTYPE OF SELF-BALANCING TWO WHEELER

TORQUE-MOTORS. as Actuators in Intake and Exhaust System. SONCEBOZ Rue Rosselet-Challandes 5 CH-2605 Sonceboz.

Modelling and Simulation Specialists

P. D. Belapurkar, S.D. Mohite, M.V. Gangawane, D. D. Doltode (Department of Mechanical, M.E.S. College of Engineering, S.P. Pune University, India)

Electromagnetic Braking system

OPTIMIZATION IN GENERATION FROM A HORIZONTAL AXIS WIND TURBINE VIA BLADE PITCH CONTROL AND STRUCTURE MORPHING

SIMULINK Based Model for Determination of Different Design Parameters of a Three Phase Delta Connected Squirrel Cage Induction Motor

CHAPTER IV EXPERIMENTAL WORK

Wind Power Plants with VSC Based STATCOM in PSCAD/EMTDC Environment

Efficiency Improvement in Shell and Tube Heat Exchanger Using CFD Tool

Current Controlled Electric Hysteresis Brakes Advantages The superior design of these hysteresis devices provides several inherent advantages over mag

MAGTROL. WB 23 High-Speed Eddy-Current Dynamometer. WB 23 Data Sheet FEATURES DESCRIPTION COMPLETE PC CONTROL

COMPARING SLOTTED vs. SLOTLESS BRUSHLESS DC MOTORS

Fig Electromagnetic Actuator

A REVIEW OF TWO WHEELER VEHICLES REAR SHOCK ABSORBER

AN ANALYSIS OF EFFECT OF VARIABLE COMPRESSION RATIO IN C.I. ENGINE USING TURBOCHARGER

Electric Power Generation by Using Magnetic Repulsive Force

Performance Analysis of 3-Ø Self-Excited Induction Generator with Rectifier Load

MAGTROL. WB/PB 115 Series Eddy-Current and Powder Dynamometers. WB/PB 115 Data Sheet. Features. Description. Applications

Just what is an alternator?

A Novel DC-DC Converter Based Integration of Renewable Energy Sources for Residential Micro Grid Applications

Torque Analysis of Magnetic Spur Gear with Different Configurations

Chapter 18 Magnetism Student Notes

DESIGN AND ANALYSIS OF NEW CLASS BRUSHLESS D.C MOTOR (FSM)

Hardware Implementation of Power Generation using Attic Type Internally Braced Air Exhauster for Industrial Application

df Idl B (1) cst ) the resulting force acting of a F Idl B IL B (2) GOAL I. INTRODUCTION. II. OPERATION PRINCIPLE

DEVELOPMENT OF ELECTRONICALLY CONTROLLED PROPORTIONING DIRECTIONAL SERVO VALVES PROJECT REFERENCE NO.: 38S1453

SIDDHARTH GROUP OF INSTITUTIONS :: PUTTUR

ELECTROMAGNETIC BRAKING SYSTEM

Transient analysis of a new outer-rotor permanent-magnet brushless DC drive using circuit-field-torque coupled timestepping finite-element method

Experimental Investigation of Effects of Shock Absorber Mounting Angle on Damping Characterstics

Performance Testing of Single Plate Automatic Clutch

HIGH EFFICIENCY ELECTRIC MOTOR

SPH3U1 Lesson 10 Magnetism. If the wire through a magnetic field is bent into a loop, the loop can be made to turn up to 90 0.

Modeling & Impact Analysis of a Car Bumper with Different Loads on Different Materials

Introduction and Overview to Friction Brakes. Course 105 PREVIEW ONLY PARTICIPANT GUIDE

Compact Regenerative Braking Scheme for a PM BLDC Motor Driven Electric Two-Wheeler

DHANALAKSHMI COLLEGE OF ENGINEERING

Research in hydraulic brake components and operational factors influencing the hysteresis losses

MAGTROL. WB/PB 65 Series Eddy-Current and Powder Dynamometers. WB/PB 65 Data Sheet. Features. Description. Applications

(d) None of the above.

Axial Flux Permanent Magnet Brushless Machines

Journal of Asian Scientific Research. DESIGN OF SWITCHED RELUCTANCE MOTOR FOR ELEVATOR APPLICATION T. Dinesh Kumar. A. Nagarajan

PIEZO ELECTRIC CONTROL HYDRAULIC STACKS FOR THE CAMLESS ENGINE

Transcription:

A Study of the Two Wheeler Retarder Type Dynamometer System Nilesh R. Mate 1, Prof. D. Y. Dhande 2 P.G. Student, Department of Mechanical Engineering, A.I.S.S.M.S. College of Engineering, Pune, India 1 Associate Professor, Department of Mechanical Engineering, A.I.S.S.M.S. College of Engineering, Pune, India 2 Abstract: In this study a compact system carrying the eddy current retarder used for the testing of two wheel vehicles is designed. A braking torque of the eddy current retarder is 400 N-m at a speed of 1200 rpm. According to the characteristics of the eddy current retarder, an exclusive test bed was developed and used for brake performance measurements. The main technical parameters, such as the brake characteristics, temperature characteristics and power consumption, were measured with the test bed. Major focus area in this paper is for study of brake characteristics. By observing the torque v/s rpm curve the torque increases initially and reached maximum value at rated or design condition and then torque starts decreasing as rpm increases further. A roller is provided at rear wheel of vehicle and front wheel is properly restrained in clamps to avoid the movement of vehicle. Keyword: Dynamometer, Retarder, Two Wheeler. I. INTRODUCTION One of the toughest conditions for maintenance manager or field service engineer has to face driver s complaints of low power. In such situation two wheeler vehicle, these complaints result in dynamometer tests to see whether the engine output is within specification. Eddy current dynamometers are electromagnetic load devices. The engine being tested spins a disk in the dynamometer. Electrical current passes through coils surrounding the disk, and induce a magnetic resistance to the motion of the disk. Varying the current varies the load on the engine. In two wheeler vehicles the testing is required to be carried out to check the actual performance with the design performance. Particularly in the service workshops two wheeler is required to run on road and then the problem areas can be find out. If the vehicle is run on the chassis dynamometer the in house problem finding and comparing with the standard requirement is possible. II DESIGN REQUIREMENTS The design of the two wheeler dynamometer is basically being focused on the testing and tuning of the two wheeler. The dynamometer must be capable of simulating road load and of one of the following classifications: Dynamometer with fixed load curve, i.e., a dynamometer whose physical characteristics provide a fixed load curve shape. This is not a preferred type of dynamometer. Dynamometer with adjustable load curve, i.e. a dynamometer with at least two road load parameters that can be adjusted to shape the load curve. This is a preferred type of dynamometer. III STEPS OF DESIGN PROCEDURE - Selection of the range of two wheelers with their power and torque requirements. This information gathered from the different vehicles specifications. - The selection of the dynamometer (retarder) is based on the range of two wheelers torque/power requirements. Copyright to IJIRSET www.ijirset.com 9057

- The type of retarder is selected considering the compactness of the system. As Eddy Current type retarder does not requires any external system for functioning like Hydraulic dynamometer etc. - The design of the platform done on the basis of weight of vehicle, forces generated due to inertia, dynamic forces under test. - Selection of material for the system is considering the dynamic forces. IV DIFFERENT PARTS OF THE SYSTEM 1. Eddy current Retarder 2. Platform 3. Retarder mounting assembly 4. Roller assembly 5. Data acquisition and Display unit IV. I SELECTION OF THE EDDY CURRENT RETARDER Eddy current retarder is the core unit of this system and the major selection has been done on the basis of type of two wheeler to be tested. Air-cooled eddy current power absorber is researched and developed based on the need of automobile inspection test equipment, and its main application is in the motorcycle chassis dynamometer, chassis dynamometer, emissions loading equipment, automotive test stand and the presentation of teaching instruments used as a load and torque measurement. Following are the parameters considered while selecting the retarder: - Power requirement of two wheeler - Torque requirement of two wheeler - Maximum speed - Size of system An eddy current retarder is made up of eight cores, an air gap, coils and rotor plates, as shown in Figure 1. Fig. 1 Structure of Eddy current retarder A coil is installed on the cylindrical surface of a core. The coil creates the windings. There is an even number of windings, and they are distributed equally around the circumference of the core. When the windings of the eddy current retarder are electrified, the kinetic or potential energy of the automobile can be transformed into thermal energy and dissipated into the atmosphere by a wind tunnel cast in the rotor plate, according to the electromagnetic principle. When a driver turns the control handle for deceleration or braking, the windings of the eddy current retarder are electrified automatically. As a result, the magnetic line among the field stator poles, the air gap, and the front and rear rotor plate constitutes a loop. Copyright to IJIRSET www.ijirset.com 9058

IV. II DESIGN OF PLATFORM Platform is the structure which withstands the all loads generated by the vehicle dynamics as well as retarder forces. The major design considerations for the platform are as follows: - Weight of two wheeler and rider - Rotating forces generated by retarder - Space optimization (compactness) The design of platform is taken in to consideration of compactness of the system as well as the future scope different system addition in the same unit. IV. III RETARDER MOUNTING ASSEMBLY This subassembly is carrying all loads exerted on retarder and reactions generated by it. The mounting assembly is selected a material of mild steel with high strength. This mounting assembly is placed at side of roller and hence the extension shaft is provided to connect the eddy current retarder shaft with the roller shaft on platform. IV.IV DATA ACQUISITION AND DISPLAY UNIT A extremely efficient system is useless without some kind of data acquisition system and display unit. This unit measures torque, rpm, fuel flow etc. The goal of a dynamometer and data acquisition system is to produce accurate and repeatable data so that any changes made to the engine or power train can be measured and recorded. In order to test the engine it is generally necessary to use a dynamometer controller. This is usually an electronic unit which has the capability of controlling the load on the dynamometer (i.e. it controls the current to the resistance coils in an eddy current dynamometer) and can measure or sense the load and speed. Dynamometer controllers generally operate in two modes: Speed Controlled operation or Load Controlled operation. In Speed Controlled mode a set speed is given to the controller (either as a voltage or a setting on the front panel of the controller, see figure 2). If the measured speed of the shaft is less than that of the set speed, the load is decreased. If the measured speed of the shaft is greater than that of the set speed, then the load is increased. Assuming the engine has sufficient torque to attain the set speed, this will maintain a constant speed. In Load Controlled mode a set load is given to the controller (either as a voltage or a setting on the front panel of the controller). If the measured load on the dynamometer is greater than that of the set load, the load is decreased. If the measured load on the dynamometer is less than that of the set load, then the load is increased. Assuming the engine has sufficient torque to attain the set load; this will maintain a constant load while the speed varies. V. WORKING AND RESULTS In this paper the braking torque of eddy current retarder is 400 N-m at 1200 rpm Adjust the tyre pressure (cold) of the driving wheels as required by the chassis dynamometer. Adjust the equivalent inertia of the chassis dynamometer. Bring the vehicle and chassis dynamometer to operating temperature in a suitable manner. ENGINE TESTING: DRIVE CYCLE To test an engine in a simulated drive cycle it may be best to use the load controlled mode. Generally both the engine speed and load will vary as a function of time, so the dynamometer controller needs to be programmable, or have a load control voltage sent to it from a programmable voltage source (i.e. DAC). Typically a human operator is given the speed schedule (i.e. the speed versus time) of the test, and can view the actual speed of the engine. His job is to maintain the engine as close to the operating speed as possible during the course of the testing Copyright to IJIRSET www.ijirset.com 9059

by operating the throttle. This step can alternatively be done by a programmable speed-sensing throttle controller (very similar to a dynamometer controller) and throttle actuator. VI. CONCLUSION Many performance parameters of the eddy current retarder could be measured in the test bed, and the test bed that was developed was based on design optimization of an eddy current retarder and R&D on a series of products. This test bed is having following benefits: -Very low inertia -Excellent accuracy and repeatability of torque measurements -High reliability for better productivity -Suitable for EURO III and IV, Smoke Test etc VII. FUTURE SCOPE/ LIMITATIONS Increases the cost of setup Heating of the eddy current retarder limits its continuous use. Majorly useful in repair workshops and limited applications in line production testing. VIII. APPLICATION To test the two wheeler vehicles simulating load duty cycles (new /old vehicles) Performance comparison of various engine Engine emission test. Development & evaluation of Engines Copyright to IJIRSET www.ijirset.com 9060

REFERENCES [1] www.sajdyno.com [2] www.zelusl.com [3] A. J. Martyr, M.A. Plint, Engine testing theory and practice test facility [4] Cerullo, Dynos: More than a smog check machine, Bob Motor; Nov 2000; 194 [5] Engine Testing Standard ISO_1585 [6] C. Y. Liu*, K. J. Jiang And Y. Zhang, Design and Use of an Eddy Current Retarder in an Automobile [7] Dynamometer Basics Dr. Horizon Gitano [8] Jacques, Measuring Performance: The Dynamometer Gordon, Motor Age; Jul 2006; 125, 7 Copyright to IJIRSET www.ijirset.com 9061

2024 © autodocbox.com Privacy Policy | Terms of Service | Feedback