Gavin Abo Nate Stout Nathan Thomas HydroFly Flywheel.

Slides:

Advertisements

Similar presentations

ECE Electric Drives Topic 6: Voltage-Fed Converters Spring 2004.

Advertisements

NETWORK ANALYSIS IN GIS ENVIRONMENT Uday Deshmukh North Delhi Power Limited.

Team: – Brad Jensen – Will Klema – Nate Schares Client: – PowerFilm, Inc. Advisor: – Dr. Ayman Fayed Solar-Powered Mobile Power Station (MPS)

ERIC VANDENBURG, SPENCER HOMAN, and TREVOR LARSON Team website: 1.

Physics for Scientists and Engineers II, Summer Semester Lecture 19: July 8 th 2009 Physics for Scientists and Engineers II.

Required and Elective Courses in Power Area. Required Power Courses u ECE 320 Energy Systems I/ECE 321 Energy Systems I lab: Covers single-phase AC measurements,

Critical Design Review VST Vigilant Sensing Technologies Joel Keesecker, Mark Kien, Pat Hauser.

Multidisciplinary Engineering Senior Design Automated Plasma Generator Test System Preliminary Design Review 11/11/05 Project Sponsor: MKS, ENI Incorporated.

Crystal Oscillator Negative Resistance Measurement System

1 Team BUSS Backup Storage Source. 2 Team BUSS Backup Storage Source EHV Substation Second DC Storage Source Sponsor Idaho Power Company Team Members.

Crystal Oscillator Negative Resistance Measurement System Cypress-R Team Members Tracey Windley Adam El-Mansouri Mentor Dr. Herb Hess Client Contact Aaron.

GRAMM International Future Energy Challenge ‘07 Geoff Sanders, Richard Tan, Ankit Tripathi, Maung Myat, and Marc Hesse Versamachine.

Chapter 7 DC-to-AC Converters

Course Outline 1. Chapter 1: Signals and Amplifiers

Chapter 8 Inverters AC Power • Inverters • Power Conditioning Units • Inverter Features and Specifications.

Power Electronics Lecture-11 Inverters Dr. Imtiaz Hussain

Group Members: -Adam Lint -Chris Cockrell -Dan Hubbard Sponsors: -Dr. Herb Hess -Dr. Brian Johnson HydroFly: Fuel Cell Project.

Introduction to Information System Development.

D ESIGN AND I MPLEMENTATION OF THE D IGITAL C ONTROLLER FOR A F UEL C ELL DC-DC P OWER C ONVERTER SYSTEM O.A. A HMED, J.A.M. B LEIJS.

Power Supply Design J.SHANMUGAPRIYAN.

ELECTRICAL SAFETY Part 1: Basic Electricity k groves /e haller.

HydroFly: Fuel Cell Group Group Members: -Adam Lint -Chris Cockrell -Dan Hubbard Sponsors: -Dr. Herb Hess -Dr. Brian Johnson.

Paguio, Cindy Sandoval, Andrew Valdez, Rozelle EE 241 Design Problem.

Charge and Current: More Practice. A Review of Circuits: Student Learning Goal The student will be able to construct and then compare and contrast.

Gavin Abo Nate Stout Nathan Thomas HydroFly Flywheel.

Chapter 6 Voltage Regulators By En. Rosemizi Bin Abd Rahim EMT212 – Analog Electronic II.

Instrumentation & Power Electronics

For Electric Vehicle Team Members Pramit Tamrakar - EE Jimmy Skadal - EE Hao Wang - EE Matthew Schulte - EE William Zimmerman - EE Advisor Ayman Fayed.

DEVELOPMENT OF LABORATORY MODULE FOR SMALL WIND TURBINE CONTROL SYSTEM (Phase V) Advisor/Client: Dr. Venkataramana Ajjarapu Group MembersPosition on Team.

II. WIND TURBINE GENERATOR MODEL

Adviser : Cheng-Tsung Lin Student :Nan-hui Hsieh

HydroFly: Flywheel Gavin Abo Nate Stout Nathan Thomas.

Fundamentals of Electric Circuits Chapter 10 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Incoming Power Grid Monitor TEAM #3: JAMES MCCORMICK, ZHIHOUG QIAN, JACOB JEBB, VICTOR EZENWOKO, ALEX LANGE FACILITATOR: DR. ASLAM SPONSOR: GREAT LAKES.

EMT212 Analog Electronic II

Regulated Power Supplies

Gavin Abo Nate Stout Nathan Thomas HydroFly Flywheel.

EMT212 – Analog Electronic II

Control Why do we need system control? 1. Produce PWM

Gavin Abo Nate Stout Nathan Thomas HydroFly Flywheel.

CONTENT 1 1. INTRODUCTION 4. SIMULATION RESULTS 2. CONDITIONER TOPOLOGIES 3. SRF - BASED ALGORITHM 5. CONCLUSIONS.

Unit 13 Electric Circuits

Zener Diode Circuits for Power Supply Designs Section 4.4.

Students: Thomas Carley Luke Ketcham Brendan Zimmer Advisors: Dr. Woonki Na Dr. Brian Huggins Bradley University Department Of Electrical Engineering 2/28/12.

Required and Elective Courses in Power Area. Required Power Courses u ECE 320/321 Energy Systems I/Energy Systems I lab: Covers single-phase AC measurements,

FSAE Engine Management System Adolfo Pereira Donald Zucaro Lee McDade Jeremy Belge Sun-Jet Liu Marcin Trelinski Advisor: Dr. Alan Nye Sponsor: FSAE Formula.

PREPRAIRED BY :Solanki Kishan( ) SUB NAME :EDC TOPIC : Half And Full Wave Rectifier GUIDED BY : Nikhil Sir.

A Wireless Local Area Network by Raymond Woodward.

1 Step Input Change Response Closed-Loop Control.

STUDY OF ELEMENTS OF A 220/132/33KV SUBSTATION

Subject Name: LINEAR INTEGRATED CIRCUITS Subject Code: 10EC46

Chapter 27 Power Supplies.

IMPEDENCE - SOURCE INVERTER FOR MOTOR DRIVES

Switching DC Power Supplies

EE 597G/CSE 578A Final Project

SELF-SUSTAINABLE SOLAR STREET LIGHT CHARGING

FPGA BASED SPEED CONTROL OF BLDC MOTOR USING SINUSOIDAL PWM

Converter principles and modelling

6.0 Voltage Regulators.

Dr. Unnikrishnan P.C. Professor, EEE

Multi-Pulse Voltage Source Converters for HVDC Systems

Gavin Abo Nate Stout Nathan Thomas

UNIT-8 INVERTERS 11/27/2018.

HydroFly Flywheel Gavin Abo Nate Stout Nathan Thomas.

Modeling of Dc-dc Boost Converter in Discontinuous Conduction Mode

Gavin Abo Nate Stout Nathan Thomas

Charge and Current: More Practice

Figure 2.43 Full-wave voltage doubler.

Presentation transcript:

Gavin Abo Nate Stout Nathan Thomas HydroFly Flywheel

Hydrofly Two Teams –Flywheel –Fuel Cell Adam Lint Chris Cockrell Daniel Hubbard

Sponsors & Mentors Brian Johnson Herb Hess Satish Samineni

Design Review II: Final Design Review Outline I. Introduction II. Objectives III. Design Functionality IV. Schedule V. Budget VI. Questions

I. Introduction Why is the project being done? - To correct short voltage sags (a few seconds) to maintain a stable voltage to critical loads. Why is this important? - The shutdown of critical loads due to short voltage sags can be costly.

II. Primary Objective Interface a flywheel to the AMPS with the ability to correct for voltage sags occurring on the AMPS. –Implement the design by Satish Samineni

Secondary Objectives Spin a flywheel Communicate between converters Operate each converter with its own PWM Provide power to AMPS Operation Manual

III. Design Functionality Organizational Chart Block Diagram Overall Circuit Schematic Sub Circuit Schematics Programming Assembled Documentation Specifications

Organizational Chart Operate a sine–triangle PWM scheme Operate a space vector PWM scheme Provide power to AMPS Communicate between converters Program the triangle wave Program the sine wave look up table Spin a flywheel Program the switching times calculation Program a Phase locked loop Program matrix math functions Sag Status Interface a flywheel to AMPS to correct for voltage sags on the system

Block Diagram

Circuit Schematic

Series Transformer Diagram

DC link startup power supply Generates positive DC voltage Generates negative DC voltage

The Programming What we have programmed –Matrix math capabilities –Space Vector PWM scheme –Sag detector and corrector What we still have to program –Phase Locked Loop –Modify already programmed code to work with the measured inputs

Assembled What has been assembled –Capacitor shorting bars –Utility Cart What needs assembled –DC link charging supply –LEMS –Safety Cover –Transformer

Documentation Test plan –Functional test plan –Specification test plan Operators Manual Poster

Specifications

IV. Schedule

V. Budget

VI. Questions