One World Direct
Software Engineer
Spec D Tuning Aug 2015 - Aug 2018
It Software Developer
Lee Kum Kee Usa Jan 2014 - May 2015
Front-End Website Developer
California State University, Long Beach Jan 2013 - Dec 2013
I.t Support Technician
Moldex3D (Coretech System Co., Ltd.) Mar 2006 - Dec 2008
Cae Engineer
Education:
California State University, Long Beach 2011 - 2014
Masters, Computer Science
National Yunlin University of Science and Technology 1999 - 2003
Bachelors, Mechanical Engineering
Skills:
Java Microsoft Office Html Sql Javascript Php Linux Asp.net Mysql Software V&V Python C# Finite Element Analysis Software Development Computational Fluid Dynamics Jquery Node.js Restful Webservices Vmware Esx Git Wordpress Bootstrap Java Database Connectivity Ruby Internet Information Services Microsoft Sql Server Transact Sql Ansys Autocad Express.js Open Database Connectivity Finite State Machines Clojure Erlang Plastics Molding Injection Simulations Rhino3D Cad Design Wireshark .Net Framework Web Development Algorithms Databases Cascading Style Sheets Docker Intellij Idea Css3 C Eclipse Visual Studio Cad/Cam/Cae Solidworks Netbeans Oracle Sql Json Selenium Testing Xml Angularjs Wcf Services Proxmox
Total Health Healing Center Health/Allied Services
11434 Ventura Blvd, North Hollywood, CA 91604 8187607401
Shih Chun Chen President
Pacific Oasis Enterprise Inc International Trade and Development · Whol Homefurnishings Whol Men's/Boy's Clothing · Importers
1612 Chico Ave #J, South El Monte, CA 91733 8413 Secura Way, Whittier, CA 90670 6264432464
Shih Ying Chen
MAX L. G., INC
17506 Colima Rd #202, Rowland Heights, CA 91748 17506 Colima Rd, Whittier, CA 91748 1249 S Diamond Bar Blvd, Pomona, CA 91765
Shih Chun Chen President
Jan's Copper Kitchen
1612 Chico Ave, El Monte, CA 91733
Shih Chang Chen President
A. C. IMAGE TECHNOLOGY INC
408 N Chalburn Ave, West Covina, CA 91790
Shih Chun Chen President
MR. BRITE, INC
1612 Chico Ave STE J, South El Monte, CA 91733
Shih Keng Chen President
PHILIPPO MANUFACTURING CORPORATION
1310-1312 John Reed Ct, Hacienda Heights, CA 91745 1310 John Reed Ct, Whittier, CA 91745
Shih Keng Chen President
EVEREST CONSULTING SERVICES Home Appliance Distribution
17009-B Grn Dr, Hacienda Heights, CA 91745 6269267386
Us Patents
Methods For Controlling N.sub.2 O Emissions And For The Reduction Of No.sub . .Sub.x Emissions In Combustion Systems While Controlling N.sub.2 O Emissions
Loc Ho - Anaheim CA Shih L. Chen - Irvine CA William R. Seeker - San Clemente CA Peter M. Maly - El Toro CA
Assignee:
Energy & Environmental Research Corp. - Irvine CA
International Classification:
C01B 2100 C01B 1700 C01B 1720 B01J 800
US Classification:
423235
Abstract:
Method for controlling N. sub. 2 O emissions from stationary combustion systems having variable flue gas temperatures are disclosed. The N. sub. 2 O emissions are controlled by the introduction of a N. sub. 2 O control agent, such as an alkaline compound, into the effluent stream. In addition, the present invention discloses methods for controlling N. sub. 2 O emissions from stationary combustion systems having variable flue gas temperatures while reducing NO. sub. x emissions. Use of an NO. sub. x reducing agent and an N. sub. 2 O control agent, such as urea and monosodium glutamate, enlarges the temperature window for effective selective noncatalytic NO. sub. x reduction while significantly eliminating N. sub. 2 O emissions commonly experienced with urea injection. Further, the present invention discloses methods for controlling N. sub.
Methods Of Reducing No.sub.x And So.sub.x Emissions From Combustion Systems
Michael P. Heap - Corona Del Mar CA Shih L. Chen - Irvine CA James M. McCarthy - Laguna Beach CA David W. Pershing - Salt Lake City UT
Assignee:
Energy and Environmental Research Corporation - Irvine CA
International Classification:
C01B 2100 C01B 1700 B01J 800
US Classification:
423235
Abstract:
The present invention relates to methods for selectively reducing NO. sub. x so that nitrogen can be removed from emission effluent streams and NO. sub. x emissions can be reduced to very low levels. In addition, the present invention teaches a method whereby NO. sub. x and SO. sub. x may be simultaneously removed from the effluent stream. The present invention teaches the reduction of NO. sub. x with cyanuric acid. Initially, cyanuric acid is decomposed to form decomposition products. The reaction of cyanuric acid to produce its decomposition products, such as isocyanic acid or related reaction intermediates, takes place in an oxygen-free, fuel rich, decomposition zone with the reaction temperature in the range of from about 1000. degree. F. to about 3000. degree. F. After the cyanuric acid is decomposed in the absence of oxygen, the decomposition stream is mixed with the effluent stream containing NO. sub. x.
Methods Of Removing No.sub.x And So.sub.x Emissions From Combustion Systems Using Nitrogenous Compounds
Michael P. Heap - Corona Del Mar CA Shih L. Chen - Irvine CA James M. McCarthy - Laguna Beach CA David W. Pershing - Salt Lake City UT
Assignee:
Energy and Environmental Research Corporation - Irvine CA
International Classification:
C01B 2100 C01B 1700 B01J 800
US Classification:
423235
Abstract:
The present invention relates to methods for selectively reducing NO. sub. x so that nitrogen can be removed from emission effluent streams and NO. sub. x emissions can be reduced to very low levels. In addition, the present invention teaches a method whereby NO. sub. x and SO. sub. x may be simultaneously removed from the effluent stream. The present invention teaches the reduction of NO. sub. x with --NH and --CN containing selective reducing agents such as ammonium sulfate, urea, and NH. sub. 3. Initially, the selective reducing agent is decomposed in a fuel-rich environment to form highly reactive decomposition products. The reaction of the selective reducing agent to produce its decomposition products, such as NH, NH. sub. 2, and related reaction intermediates, takes place in an oxygen-free, fuel-rich decomposition zone with the reaction temperature in the range of from about 300. degree. F. to about 2400. degree. F.