Energy Conversion & Heat Exchangers System - Design & Analysis
- Firetube Boiler Performance Analysis Modeling
- Firetube Boiler Manufacturing/Labor/Material Cost Optimization Analysis
- Vertical (Small Footprint) Boiler Analysis Modeling
- Catalytic Oxidizer System Analysis
- Mobile Snow-Melting Hext Exchanger Design and Analysis
- Tubeless Horizontal Boiler Design and Analysis
- Boiler Pressure Vessel Water Circulation Characteristics Analysis
- Commercial/Industrial Firetube Boilers (Dryback and Wetback Systems) Performance Modeling (Software) Development Prediction of Boiler Flue (Stack) Gas Temperature and Pressure Changes along Tube Passes and Boiler System Efficiency for Various Boiler Sizes (BHP), Fuel Types and Firing Conditions, etc.
- Commercial/Industrial Firetube Boilers Manufacturing, Labor and Material Cost Analysis Software Development - Itemized Cost Input Data (or Developed Formula) and Information for 2,3 and 4 Tube Passes Boilers and Dryback/Wetback Systems
- Commercial/Industrial Firetube Boiler Efficiency Software Development - Overall System Efficiency and Fuel Cost Savings - 3/ 4 Tube Pass and Dryback/Wetback Systems - for Various Boiler Sizes (BHP), Turndown Ratios, Fuel Types and Seasonal/Annual Load Profiles, etc.
- Vertical (Small Footprint) Boiler Analysis Modeling - Effect of Fin (Shape, Location and Number) on the Boiler Performance (Thermal Efficiency and Stack-Gas Pressure Change Characteristics)
- Catalytic Oxidizer System Analysis - (i) Crossflow Heat Exchanger Performance Analysis Software Development, (ii) CFD Analysis - Investigation of Flow Characteristics in Turnaround Section, and (iii) Reconfiguration of the System Heat Exchanger
- Mobile Snow-Melting Hext Exchanger Design and Analysis - 2-Pass Sumberged HEX - System Performance Evaluation Program Development and CFD Modeling of Flow Characteristics in Plenum Sections
- Tubeless Horizontal Boiler Design and Analysis - Performance Evaluation Software Development - Optimal Selection of Design Parameters
- Boiler Pressure Vessel Water Circulation Characteristics near Boiler Furnace and Turnaround Wrapper Walls - Effect of Various Boiler Feedwater Locations on Water Circulation Pattern (Predicted) Based on Experimentally Measured Wall Temperature Data Incorporated with Theoretical Analysis at Various Operating Conditions
For more information, contact:
Dr. Hyunjae Park
Director and Research Professor
Thermofluid Science and Energy Research Center (TSERC)
Department of Mechanical Engineering
College of Engineering
Marquette University
P.O. Box 1881
Milwaukee, Wisconsin 53201-1881
Phone: (414) 288-6716
FAX: (414) 288-7790
E-mail
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