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Waste-Heat recovery of Micro Turbine through compact heat exchanger (Design)
예산
$30~$250 USD
예상 기간
1~2주
난이도
전문가
기술 스택
MATLAB
Thermodynamics
Heat Transfer
Mechanical Engineering
Simulation
Technical Writing
Engineering Design
Technical Drawing
AI 분석 요약
마이크로 가스터빈 폐열 회수를 위한 역류형 열교환기 설계 및 MATLAB 시뮬레이션 프로젝트입니다. 브레이턴 사이클 모델을 기반으로 열교환기 크기, 효율, 압력 강하 등을 계산하고, MATLAB 스크립트 개발, 성능 분석 보고서 및 설계 스케치를 포함한 최종 결과물을 제출해야 합니다. 열역학 및 MATLAB 시뮬레이션 전문 지식이 필요합니다.
프로젝트 원문 설명
I’m wrapping up my final-year project on waste heat recovery for a micro gas turbine and I need an extra set of expert hands. The overall Brayton-cycle model is already sketched, but the counter-flow heat exchanger is where I need the most guidance—sizing, effectiveness calculations, pressure-drop estimates, the works.
Here’s the workflow I have in mind: refine the thermodynamic model so the turbine, recuperator and ambient conditions are properly coupled; translate that into a clean, well-commented MATLAB script; then iterate on the exchanger geometry until we hit an efficient balance between recovered power, core pressure losses and realistic manufacturing constraints. Throughout the process I’d like short explanations of each assumption and equation so I can defend them during my viva.
Deliverables I must hand in:
• Design schematics (dimensional drawing or clearly annotated sketch)
• Performance analysis report summarising key figures—ε, NTU, UA, ΔP, gain in overall cycle efficiency
• MATLAB simulation results and the .m files themselves, ready to rerun with new inputs
If you can start right away and keep the code and documentation student-budget friendly, let’s talk.
Here’s the workflow I have in mind: refine the thermodynamic model so the turbine, recuperator and ambient conditions are properly coupled; translate that into a clean, well-commented MATLAB script; then iterate on the exchanger geometry until we hit an efficient balance between recovered power, core pressure losses and realistic manufacturing constraints. Throughout the process I’d like short explanations of each assumption and equation so I can defend them during my viva.
Deliverables I must hand in:
• Design schematics (dimensional drawing or clearly annotated sketch)
• Performance analysis report summarising key figures—ε, NTU, UA, ΔP, gain in overall cycle efficiency
• MATLAB simulation results and the .m files themselves, ready to rerun with new inputs
If you can start right away and keep the code and documentation student-budget friendly, let’s talk.
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