Nadpis Jméno a Příjmení Datum www.rcmt.cvut.cz CZECH TECHNICAL UNIVERSITY IN PRAGUE | FACULTY OF MECHANICAL ENGINEERING Department of Production Machines.

Slides:

Advertisements

Similar presentations

Traction electrical equipment

Advertisements

Engine Geometry BC L TC l VC s a q B

References Which were useful? Sources Fluid Power with Applications; Anthony Esposito Basics of Hydraulic Systems Qin Zhang Hydraulic and Pneumatics.

Done by: Amr Aljamal Mou’ath Shakeeb Ayman Atallah Instructor: Prof. Mohammad Zeki Khedher The University of Jordan Faculty of Engineering and Technology.

RACING WITH HYBRIDS PROPOSAL TO THE ESMSC Jean Jacques His, Ferrari Head of Powertrain Department 16/11/2010.

ECE 4411 Dynamic Braking of Induction Motors Slow down a machine by converting kinetic energy stored in the rotating mass to heat energy in the rotor and/or.

Measurement of force torque and pressure

Team Hybrid  Daniel Farley  John Hoyt  Sean Frost Hoyt.

Hydraulic Hybrid Vehicle Members: Kevin Alexander Phillip Bacon Tyler Degen Brandon Diegel Nick Hemenway Luke Jackson Christian L’Orange Grant Mattive.

Resistance Forces on A Vehicle P M V Subbarao Professor Mechanical Engineering Department Estimation of Vehicle Demands ….

BTE 1013 ENGINEERING SCIENCEs

Team Hybrid Hoyt MemberSubsystem Sean Frost Electric motor, motor controller, charge controller, charge accumulators Dan Farley Hydraulics system: Pumps,

Sensors and Actuators John Errington MSc. Sensors and Actuators Sensors produce a signal in response to a change in their surroundings e.g. Thermostat.

Engine Size and Measurements

1 EE462L, Fall 2011 Motor Drives and Other Applications.

Intro to Motors and Gears

Toyota Prius Study case.

SRMs in HEV applications Comparison of electrical machines for HEVs.

1 Institute of Mechatronics and Information Systems Control and Driving Systems.

7.3 ENERGY LOSSES AND ADDITIONS  Objective: to describe general types of devices and components of fluid flow systems.

The basics The most crucial components that I will be looking at are the batteries, the motor, the gears and the springs that allow the mechanism to function.

NAZARIN B. NORDIN What you will learn: Simple machines Mechanical advantage (force ratio) Movement ratio (velocity ratio) Machine.

ERC C&E Fluid Power 1 ROTARY SELF-SPINNING HIGH SPEED ON-OFF VALVE Center for Compact and Efficient Fluid Power Department of Mechanical Engineering University.

ELECTRO – PROPORTIONAL VALVES

HYDRAULIC MOTORS.

LinMot® 2012 LinMot Pneumatic Replacement_e.ppt Replacing Pneumatics.

Lab Process-EV sub group

Variable Speed Applied to Pumps. Life Cycle Costs - Courtesy of Hydraulic Institute and Europump Initial cost is not the only cost associated with a pump.

ELEC 3105 Basic EM and Power Engineering Rotating DC Motor PART 2 Electrical.

Technical presentation ECF50-90

Lecture 3: Dynamic Models

Formative Assessment. 1. A mechanic needs to exert 385 mN of torque. He weighs 833 N and he stands on the handle of his wrench that is making a 17.0 o.

Regenerative Braking Systems Presented by Chaitanya G. Gosavi B.E. Mechanical Government Engineering College, Aurangabad.

Presented by Thomson george

PRESENTATION ON CAMLESS ENGINE

Electrical and Computer Engineering Cumulative Design Review Team 22: Driver Assist.

Regenerative braking system

Proportional and Servo Valves

Kinetic Energy Recovery System (KERS)

Prepared By Rohit G. Sorte M.Tech

COMPRESSED AIR ENGINE (An engine which runs on Air only)

HOW TO SELECT A SERVO SYSTEM

Alphard - Engine Contents Click a Section Tab.

Power Of Hydraulic Dec, Linnaeus University Javad Mohammadi Majd Javad Mohammadi Majd

Hydraulic System 09/01/2016 Hyderabad

 The acronym KERS stands for Kinetic Energy Recovery System.  The device recovers the kinetic energy that is present in the waste heat created by the.

CONTENTS 1 The advantages of Servo Punch 2

FINAL PRESENTATION UNIVERSITY OF CINCINNATI

Mechanical Measurements and Metrology

Larox Peristaltic Pumps for Transferring (LPP-T) Education, part 2

ELEC 6491 Controlled Electric Drives

Induction Motor as a Induction Genrator

Sensorless position control of direct driven hydraulic actuators Master’s thesis seminar presentation Tom Sourander Aalto University School of Engineering.

Fluid Power systems Zonal hydraulics - industrial case 10 October 2017

Hydraulic lift with the aid of energy storage (accumulators)

OBJECTIVES Explain the principles involved in regenerative braking.

Lesson 16: Asynchronous Generators/Induction Generators

Automated Capping System

Subject Name: Dynamics of Machines Subject Code: 10AE53

MOTOR SELECTION Electric motors should be selected to satisfy the requirements of the machines on which they are applied without exceeding rated electric.

Introduction to Hydraulics

Design of Powertrain for an Electric Car

Thought for the day “Engineering is the art of modelling

ACOE347 – Data Acquisition and Automation Systems

AC Drives Dr. Adel A. El-Samahy Department of Electrical Engineering University of Helwan.

Braking of Three Phase IM

Presentation transcript:

Nadpis Jméno a Příjmení Datum CZECH TECHNICAL UNIVERSITY IN PRAGUE | FACULTY OF MECHANICAL ENGINEERING Department of Production Machines and Equipment | PME Research Center of Manufacturing Technology | RCMT Energy saving hydraulic drives for industrial machines Tomáš Krannich nd International Conference on Hydraulics and Pneumatics

2 Energy saving hydraulic drives of industrial machines ŽĎAS LVH 2500 Technical parameters: Rated deformation force ( tons ) : 2500 Number of strokes ( 1/min ) : 20 Rated power stroke (kgm ): Stroke ( mm ) : 500 Slide area ( mm x mm ) : 1050x1200 Gross Vehicle Weight (kg ) : The machine is equipped with a lower hydraulic drive. Spindle diameter = 500 mm, slide speed = 1 m / s 22 nd International Conference on Hydraulics and Pneumatics

3 Braking large inertia Mechanical energy Throttling of hydraulic flow Heat loss Electric energy Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Hydraulic accumulator The braking resistor - It is used primarily as a protection element Second Recovery in el. network - The need for phasing, especially for higher performance Accumulation el. energy in batteries, capacitors - High price and low capacity (large number) Power supply to other drive - Calculation of operating parameters Hydraulic energy

4 Energy recovery - Electric Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Hydraulic circuits - closed

5 Energy recovery - Electric Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Hydraulic circuits - closed Acceleration

6 Energy recovery - Electric Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics b) Hydraulic circuits - closed Decceleration

7 Electro-hydraulic drive wiring diagram Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics 1. Frequency convertor SKB Asynchronous induction motor 1,1kW 3. Hydraulic generator Parker PGM Hydraulic motor MRAK 6 5. Flywheel Hydraulic valves 8. Boost pump 9. PC – with measuring card 10. Revolution, pressure sensors

8 STAND Hydraulic motor Parker PGM511 Asynchronous induction motor 1,1kW Frequency convertor SKB Pressure valves Boost pump Flywheel Hydraulic motor MRAK 6 Hydraulic parts ArgoHytos PC – with measuring card RPM and pressure sensors Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Braking resistor II. Asynchronous induction motor 1,1kW II. Flywheel II. PC – with measuring card

9 Energy flow of electro-hydraulic system in the second phase – flywheel deceleration Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Schema at SW - Dynast

10 Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics

11 Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics

12 Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Torque [Nm] Time [s] Torque of Hydromotor MRAK 6 Torque of Generator Parker PGM511 Braking torque measurement

13 Scanning time Tvz=0.002; Starting time TR=0.8; Stabilization time TD=0.6; Braking time TB=0.8; No. of cycles N=5; Maximal RPM nmax=225; Minimal RPM nmin=60; Specified parameters: Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics

14 Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Flywheel 1 Diameter = 400 mm Thickness = 120 mm n max = 210 RPM Inertia = 2,17 kg.m 2 Maximum kinetic energy = 600 J Dick = 10 mmDiameter [ mm ]Number Part x Part x Part x Part x Flywheel 2 - Power supply to other drive STAND - adjustment

15 Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Graph 1 Graph 2 Flywheel 2

16 The input values Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics Speed control - Matlab

17 Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics

18 Conclusion Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics It was created stand for energy recovery - Pressure / electric important parameters Performance - total power: 1000 W Joules Flywheel 1 - moment of inertia and speed: 2.17 kg.m2, 210 RPM Torque - max braking time, maximum  pressure on HM: 0.5 s, 80 bar Recovery. Current max 2A at the time of 0.5 s The longest recovery time of about 1s at current cca 1A Shattered energy in the braking resistor - about 160 W Energy utilization for the second drive: the size of the flywheel 2 diametr 144, speed 700RPM

19 Thank you for your attention Energy saving hydraulic drives of industrial machines 22 nd International Conference on Hydraulics and Pneumatics