Presentation is loading. Please wait.

Presentation is loading. Please wait.

JINGYU SI Ph.D. Dissertator Mechanical Engineering Department

Published byAlfréd Orbán Modified over 5 years ago

Similar presentations

Presentation on theme: "JINGYU SI Ph.D. Dissertator Mechanical Engineering Department"— Presentation transcript:

1 The Design and Investigation Zinc-Air Flow Battery with Automatic Control System (Phase III)
JINGYU SI Ph.D. Dissertator Mechanical Engineering Department University of Wisconsin–Milwaukee

2 Outline Introduction of zinc-air flow battery system
Build up and test the reactor of zinc-air flow battery system Conclusion Future work

3 Introduction of zinc-air flow battery system
WHY 01 WHAT 02 HOW 03

4 Energy densities for various types of batteries

5 Raw material costs

6 Zinc air battery Four major components Three main reactions
Two key problems

7 Redox flow battery Distinct structure Unique features
Low energy density

8 Zinc air flow battery system

9 Build up and test the reactor of zinc-air flow battery system
Introduction of reactor The control component and algorithm Study the performance of reactor Study the durability of reactor

10 Reactor and reactor in system

11 The control component and algorithm

12 Polarization characteristics of for a single air-cathode reactor.
Polarization characteristics of 1st and 2nd generation prototype with single air electrodes(2.16 cm2) at constant flowing rate

13 Test up to DoD 10% discharge on the lifespan of the 1st generation reactor
Galvanostatic discharge up to 10% DoD of bi-air electrodes of 1st generation prototype at a current density of 40 mA cm-2 (respect to the geometric area of air cathode) constant flowing rate

14 Polarization characteristics of 2nd generation prototype
Polarization characteristics of 2nd generation prototype with single air electrodes (2.16 cm2) at constant flowing rate for 6 days

15 Galvanostatic discharge 1 hour of single air electrodes of 2nd generation prototype
Galvanostatic discharge 1 hour of single air electrodes of 2nd generation prototype at a current density of 100 mA cm-2 (respect to the geometric area of air cathode) constant flowing rate

16 Conclusion The reactor with automatic control of rechargeable Zn-air flow battery has built up The reactor show the power density was up to 280mW cm-2 and the current density was up to 280 mA cm-2 at constant flowing rate  (at 1V cut-off voltage). The reactor shows the durability was up to 240 hours with little degradation.

17 More studies about electrolytes, air cathode and battery configuration are needed to further improve performance and stability The regenerator will be researched to charge the ZnO back to zinc without dendrites grow. The control algorithm for other components in system will be created and studied. Future work

18 Thank you Questions ?

Download ppt "JINGYU SI Ph.D. Dissertator Mechanical Engineering Department"

Similar presentations

Chapter 20 Electrochemistry

Chapter 20 Electrochemistry
NPRE 498 Energy Storage Systems Garrett Gusloff 11/21/2014

NPRE 498 Energy Storage Systems Garrett Gusloff 11/21/2014
Electricity & Magnetism at Work

Electricity & Magnetism at Work
Prepared by: Mr.P.L.Meena. Electrochemistry is the scientific study of the chemical species and reactions that take place at the interface between an.

Prepared by: Mr.P.L.Meena. Electrochemistry is the scientific study of the chemical species and reactions that take place at the interface between an.
Electrochemical Energy Systems (Fuel Cells and Batteries)

Electrochemical Energy Systems (Fuel Cells and Batteries)
Electrochemical & Voltaic Cells

Electrochemical & Voltaic Cells
Electric cells  a simple electric cell consists of two different metal electrodes placed in an electrolyte  metals high up in the reactivity series give.

Electric cells  a simple electric cell consists of two different metal electrodes placed in an electrolyte  metals high up in the reactivity series give.
Electrochemical Cells

Electrochemical Cells
Batteries Katy Swancutt ENGR 302I December 2007. What is a battery? It is something that converts chemical energy into electrical energy. They produce.

Batteries Katy Swancutt ENGR 302I December What is a battery? It is something that converts chemical energy into electrical energy. They produce.
Electrochemical Cells. Definitions Voltaic cell (battery): An electrochemical cell or group of cells in which a product-favored redox reaction is used.

Electrochemical Cells. Definitions Voltaic cell (battery): An electrochemical cell or group of cells in which a product-favored redox reaction is used.
Hydrogen Fuel Cells - How they make electricity. Sources- Works Cited  Wright, Steve. A Basic Overview of Fuel Cell Technology. Collecting the History.

Hydrogen Fuel Cells - How they make electricity. Sources- Works Cited  Wright, Steve. "A Basic Overview of Fuel Cell Technology." Collecting the History.
Conclusions: We have successfully created a greener battery From our experimentation we found that the presence of Zinc Nitrate was redundant and was eliminated.

Conclusions: We have successfully created a greener battery From our experimentation we found that the presence of Zinc Nitrate was redundant and was eliminated.
Studies on Capacity Fade of Spinel based Li-Ion Batteries by P. Ramadass, A. Durairajan, Bala S. Haran, R. E. White and B. N. Popov Center for Electrochemical.

Studies on Capacity Fade of Spinel based Li-Ion Batteries by P. Ramadass, A. Durairajan, Bala S. Haran, R. E. White and B. N. Popov Center for Electrochemical.
Capacity Fade Studies of LiCoO 2 Based Li-ion Cells Cycled at Different Temperatures Bala S. Haran, P.Ramadass, Ralph E. White and Branko N. Popov Center.

Capacity Fade Studies of LiCoO 2 Based Li-ion Cells Cycled at Different Temperatures Bala S. Haran, P.Ramadass, Ralph E. White and Branko N. Popov Center.
BATTERIES SPECIFICATIONS. Batteries Batteries are electrochemical cells. A chemical reaction inside the battery produces a voltage between two terminals.

BATTERIES SPECIFICATIONS. Batteries Batteries are electrochemical cells. A chemical reaction inside the battery produces a voltage between two terminals.
ELECTRICAL ENGINEERING SCIENCE

ELECTRICAL ENGINEERING SCIENCE
Lecture 28 October 30, 2013. Stand Alone PV San Luis Valley Solar Data (09/11/2010) Good Day [1] 3.

Lecture 28 October 30, Stand Alone PV San Luis Valley Solar Data (09/11/2010) Good Day [1] 3.
The UK Energy Storage Supergen Consortium Prof Peter Hall Dept Chemical Engineering University of Strathclyde Glasgow Scotland.

The UK Energy Storage Supergen Consortium Prof Peter Hall Dept Chemical Engineering University of Strathclyde Glasgow Scotland.
Summer Course on Exergy and Its Applications EXERGY ANALYSIS of FUEL CELLS C. Ozgur Colpan July 2-4, 2012 Osmaniye Korkut Ata Üniversitesi.

Summer Course on Exergy and Its Applications EXERGY ANALYSIS of FUEL CELLS C. Ozgur Colpan July 2-4, 2012 Osmaniye Korkut Ata Üniversitesi.
Kittima Ngamsai1 Amornchai Arpornwichanop1, 2

Kittima Ngamsai1 Amornchai Arpornwichanop1, 2

Similar presentations

Ads by Google