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Thermoacoustic cascade engine free from resonance length
Ahmed Hamood
,
Artur J. Jaworski
Department of Engineering
Centre for Thermofluids, Energy Systems and High-Performance Computing
Centre for Efficiency and Performance Engineering
School of Computing and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Citations (Scopus)
Overview
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Mathematics
Engine
90%
Acoustics
76%
Cascade
75%
Generator
52%
Linear Motor
50%
Electricity
39%
Driver
18%
Life Span
17%
Amplification
17%
Wavelength
16%
Decoupling
16%
Traveling Wave
14%
Recovery
13%
Heat
13%
Exceed
13%
Engineering & Materials Science
Thermoacoustics
100%
Acoustics
58%
Thermoacoustic engines
46%
Linear motors
33%
Electricity
20%
Waste heat utilization
14%
Seed
14%
Amplification
14%
Wavelength
12%
Pipe
10%
Hot Temperature
6%
Chemistry
Electricity
79%
Resonance
56%
Waste Heat
54%
Length
42%
Wavelength
25%
Weight
19%
Application
11%
Earth & Environmental Sciences
engine
65%
acoustics
58%
electricity
25%
waste heat
18%
electric power
16%
decoupling
15%
amplification
13%
seed
12%
pipe
11%
wavelength
10%