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Mike P Kao

from Rowland Heights, CA
Age ~77
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Also known as:
Mike Te Kao, Mp P Kao, Penm M Kao, Mike P Kap, U Kao
Related to:
Carlyne Stephanie Liu
Connected to:
Andrew Kao, 47Chong S Kao, 65Dara Kao, 37Emmy T Kao, 74Evan I Kao, 39Hua H Kao, 46Ikuko Kao, 51Ivy L Kao, 70Jamie Kao, 61Jeffery Kao, 40

Mike Kao Phones & Addresses

  • Rowland Heights, CA
  • La Habra, CA
  • Closter, NJ
  • Edgewater, NJ
  • South El Monte, CA
  • Fort Lee, NJ
  • Fullerton, CA
  • Rowland Heights, CA
  • Arlington, TX
  • Los Angeles, CA

Resumes

Resumes

Mike Kao Photo 1

Sr. I.t. Specialist

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Location:
Greater Los Angeles Area
Industry:
Information Technology and Services
Mike Kao Photo 2

Mike Kao

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Mike Kao Photo 3

Hr Transformation Consultant At Avery Dennison

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Location:
Greater Los Angeles Area
Industry:
Human Resources
Mike Kao Photo 4

Regional Director At Gracom Technologies, Llc

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Location:
Greater Los Angeles Area
Industry:
Computer Hardware
Mike Kao Photo 5

Realtor At Irn Realty

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Location:
Greater Los Angeles Area
Industry:
Real Estate

Business Records

Name / Title
Company / Classification
Phones & Addresses
Mike Kao
Principal
Enhance Technology Inc
All Other Personal Services
17212 Hillside Cir, Huntington Beach, CA 92649
(714) 840-8737
Mike Kao
President
RAIDTHON CORP
18822 Bch Blvd STE 207, Huntington Beach, CA 92648

Publications

Us Patents

Metal Hydride Storage Canister Design And Its Manufacture

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US Patent:
6993888, Feb 7, 2006
Filed:
Mar 23, 2004
Appl. No.:
10/806234
Inventors:
Jefferson Y S Yang - Orange CA, US
Mike Kao - Anaheim CA, US
Assignee:
Asia Pacific Fuel Cell Technologies, Ltd. - Taipei
International Classification:
F17C 11/00
US Classification:
53447, 29422, 53475, 206 07, 206499
Abstract:
This invention is related to a metal hydride storage canister, comprising a storage canister body, a wafer baffle stacked on the body for containing metal hydride of a pre-determined amount, and a tubing having a porous surface for securing the wafer baffle in the body and for guiding hydrogen discharged from the metal hydride to an outlet of the body. This invention further discloses the manufacture of the storage canister.

Separator Plate Structure For Fuel Cell Stack

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US Patent:
7041407, May 9, 2006
Filed:
May 14, 2003
Appl. No.:
10/437034
Inventors:
Jefferson Y S Yang - Orange CA, US
Te-Chou Yang - Kaohsiung, TW
Mike Pen-Mu Kao - Anaheim CA, US
Yao-Sheng Hsu - Taipei, TW
Yaw-Chung Cheng - Taipei, TW
Assignee:
Asia Pacific Fuel Cell Technologies, Ltd. - Taipei
International Classification:
H01M 8/02
US Classification:
429 26, 429 39
Abstract:
A fuel cell stack includes a number of modularized plate structures including an anode plate, a cathode plate, water coolant plates and air coolant plates. The anode and cathode plates are designed to form hydrogen and air channels that allow for uniform distribution and even flow of hydrogen and air through the channels with the channels of each particular plate having substantially identical length in order to enhance electrochemical reaction between hydrogen and oxygen contained in the air with respective catalysts in the fuel cell stack. Also a sufficient amount of air is allowed to flow through the cathode plate to enhance output power of the fuel cell stack. The coolant plates adapt a split design, which introduces turbulence in the coolant channels to enhance heat removal.

Metal Hydride Storage Canister Design And Its Manufacture

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US Patent:
20030019765, Jan 30, 2003
Filed:
Oct 5, 2001
Appl. No.:
09/971898
Inventors:
Jefferson Yang - Orange CA, US
Mike Kao - Anaheim CA, US
Assignee:
Asia Pacific Fuel Cell Technologies, Ltd.
International Classification:
B65D085/00
US Classification:
206/000700
Abstract:
This invention is related to a metal hydride storage canister, comprising a storage canister body, a wafer baffle stacked on the body for containing metal hydride of a pre-determined amount, and a tubing having a porous surface for securing the wafer baffle in the body and for guiding hydrogen discharged from the metal hydride to an outlet of the body. This invention further discloses the manufacture of the storage canister.

Water Draining Structure For Gas Reaction Plate Of Fuel Cell Stack

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US Patent:
20030219642, Nov 27, 2003
Filed:
May 14, 2003
Appl. No.:
10/437026
Inventors:
Jefferson Yang - Orange CA, US
Te-Chou Yang - Kaohsiung, TW
Mike Kao - Anaheim CA, US
Yao-Sheng Hsu - Taipei, TW
Yaw-Chung Cheng - Taipei, TW
International Classification:
H01M008/02
H01M008/04
US Classification:
429/038000, 429/025000
Abstract:
A water draining structure for gas reaction plate of a fuel cell stack includes a gas inlet, a gas outlet, a plurality of wide gas channels parallelly arranged to communicate with the gas inlet, and a plurality of narrow gas channel parallelly arranged to communicate with the gas outlet, all provided on the gas reaction plate. Each of the wide gas channels is communicable with a corresponding one of the narrow gas channels. When an amount of reacting gas is guided into the gas reaction plate, it encounters a significant change in cross-section area from the wide gas channels to the narrow gas channels. A substantial pressure difference between the wide and narrow gas channels is generated, providing a force to blow off moisture in the wide and narrow gas channels.

Humidifing Module And Its Unit Cell For Fuel Cell

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US Patent:
20030228507, Dec 11, 2003
Filed:
May 28, 2003
Appl. No.:
10/446746
Inventors:
Yao-Sheng Hsu - Taipei, TW
Jefferson Yang - Orange CA, US
Yaw Cheng - Taipei, TW
Mike Kao - Anaheim CA, US
Te-Chou Yang - Kaohsiung, TW
Assignee:
Asia Pacific Fuel Cell Technologies, Ltd.
International Classification:
H01M008/04
H01M002/00
US Classification:
429/026000, 429/038000, 429/034000, 429/039000
Abstract:
A module for humidifying a fuel cell and a unit cell therein. The unit cell includes a first guiding plate, a second guiding plate, and an intermediate layer. The first guiding plate, communicating with the fuel cell, includes a plurality of first grooves so that air flows to the fuel cell via the first grooves. The second guiding plate, communicating with the fuel cell, includes a plurality of second grooves so that gas from the fuel cell flows out of the unit cell via the second grooves. The second grooves face the first grooves. The intermediate layer is disposed between the first guiding plate and the second guiding plate, and prevents the air flowing in the first grooves from mixing with the gas flowing in the second grooves. Water content in the gas flowing in the second grooves is transmitted to the first grooves.

Fuel Cell Assembly With Humidifier

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US Patent:
20040013929, Jan 22, 2004
Filed:
Jun 10, 2003
Appl. No.:
10/458340
Inventors:
Yao-Sheng Hsu - Taipei, TW
Jefferson Ys Yang - Orange CA, US
Yaw Chung Cheng - Taipei, TW
Mike Pen-Mu Kao - Anaheim CA, US
Te-Chou Yang - Kaohsiung, TW
Assignee:
Asia Pacific Fuel Cell Technologies, Ltd.
International Classification:
H01M008/04
H01M008/24
US Classification:
429/034000, 429/026000, 429/038000, 429/039000
Abstract:
A fuel cell assembly having a self-recycling humidifier. The fuel cell assembly includes a humidifier and a fuel cell module communicating with an external hydrogen source. The fuel cell module chemically combines hydrogen from the hydrogen source and oxygen from introduced air to produce electricity and water. The produced water is removed by an airflow. The moisture is recycled by the humidifier to humidify the introduced air.

Cooling Of Air-Cooled Fuel Cell System

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US Patent:
20050008912, Jan 13, 2005
Filed:
Jul 6, 2004
Appl. No.:
10/883748
Inventors:
Jefferson Yang - Orange CA, US
Mike Kao - Anaheim CA, US
Aili Bo - Anaheim CA, US
Feng-Hsiang Hsiao - Taipei, TW
International Classification:
H01M008/04
US Classification:
429026000, 429024000
Abstract:
An air cooling system for cooling an air-cooled fuel cell system including a plurality of cooling air channels formed in the fuel cell system is disclosed. The fuel cell system is provided with a fan casing at a cooling air inlet side of the cooling air channels. At least one fan is mounted to an opening of the fan casing. When the fan is turned on, it generates a cooling air flow which flows in from the cooling air inlets, through the cooling air channels and flows out from the cooling air outlets. A temperature sensor is arranged at a position between an anode plate of a single cell unit and a cathode plate of an adjacent single cell unit for detecting a temperature of the fuel cell system. A filter casing is provided to fuel cell system at the cooling air inlet side, and a filter is mounted to an opening of the filter casing for filtering dust and impurities. A cooling air guiding cover is provided at an external side of the fan casing for guiding the cooling air to a humidifier. The humidified cooling air is recirculated via a recirculation pipeline to the fuel cell system.

Flow Field Pattern For Fuel Cell Stack Separator Plates

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US Patent:
20050014048, Jan 20, 2005
Filed:
Jul 6, 2004
Appl. No.:
10/883755
Inventors:
Jefferson Yang - Orange CA, US
Mike Kao - Anaheim CA, US
Aili Bo - Anaheim CA, US
Feng-Hsiang Hsiao - Taipei, TW
International Classification:
H01M008/10
H01M002/00
H01M002/02
H01M002/14
US Classification:
429032000, 429034000, 429038000, 429039000
Abstract:
A flow field pattern for separator plates of a fuel cell system is disclosed. The separator plate is formed with a gas inlet port at a first edge, a gas outlet port at a second edge, and a plurality of gas channels at a first surface. A first guide channel is arranged at the first edge adjacent to the gas inlet port and a second guide channel is arranged at the second edge adjacent to the gas outlet port. Each of the guide channels comprises a guide section and an outlet section. A part of the guide section of the first guide channel is located opposite to the outlet section of the second guide channel. The two ends of the gas channels in a guiding zone of the separator plate are respectively connected with the gas inlet port at the first edge and the guide section of the second guide channel at the second edge. The guide section of the second guide channel is fluid communicated with the outlet section of the second guide channel, which is connected by the gas channels in a connecting zone to the guide section of the first guide channel, and through the outlet section of the first guide channel and the gas channels in an outlet zone of the separator plate to the gas outlet port at the second edge.
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Mike P Kao from Rowland Heights, CA, age ~77 Get Report