Journal of Flow Control, Measurement & Visualization

Journal of Flow Control, Measurement & Visualization

ISSN Print: 2329-3322
ISSN Online: 2329-3330
www.scirp.org/journal/jfcmv
E-mail: jfcmv@scirp.org
"Experimental Analysis of a Compressed Air Engine"
written by Qihui Yu, Maolin Cai,
published by Journal of Flow Control, Measurement & Visualization, Vol.3 No.4, 2015
has been cited by the following article(s):
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[1] Test of a New Low-Speed Compressed Air Engine for Energy Recovery
2021
[2] RESEARCH OF ROTARY PISTON ENGINE USE IN TRANSPORT POWER PLANTS.
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[3] SIMULATION OF PNEUMATIC SYSTEMS USING AUTOMATION STUDIO™ SOFTWARE PLATFORM.
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[4] Дослідження впливу параметрів робочого процесу на ефективні показники роторно-поршневого двигуна
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[5] Experimental research of the prototype of the rotary-piston engine of the transport hybrid power plant
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[6] Conversión de la Energía del Aire Comprimido a través de un Motor Reciprocante Adaptado de dos Pistones
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[7] Air Compressed Energy Conversion through anadapted two pistons reciprocating engine
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[8] Determining the Effective Indicators of a Rotary-Piston Motor Operation
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[9] Experimental study of the influence of the degree of filling on the effective indicators of a rotary piston engine
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[10] Energy Efficiency and Ecological Impact of the Vehicles
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[11] Avaliação da eficiência na geração de energia elétrica de um motor híbrido (combustão+ ar comprimido) a partir de testes em protótipo real
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[12] Système intégré de stockage de l'électricité renouvelable par air comprimé
2020
[13] Modelling and experimental validation of a small-scale trigenerative compressed air energy storage system
2019
[14] Investigation and implementation of compressed air powered motorbike engines
2019
[15] Стенд для випробування та дослідження роторно-поршневих двигунів
2019
[16] Математична модель робочого циклу роторно-поршневих двигунів
2019
[17] Design and Optimization of a Charging Station for Electric Vehicles based on Compressed Air Energy Storage
IFAC-PapersOnLine, 2018
[18] Experimental Study on Effect of Valve timing to Performance of Compressed Air Engine
2018
[19] 太陽熱発電用レシプロエンジンの改良 (水蒸気駆動時のコントローラビリティの改善)
2018
[20] Modern Pneumatic and Combustion Hybrid Engines
Improvement Trends For Internal Combustion Engines, 2018
[21] Design, Fabrication and Simulation of Compressed Air Hybrid Vehicle
International Research Journal of Engineering and Technology, 2018
[22] Experimental Investigation of Compressed Air engine Performance
International Journal of Engineering Inventions, 2018
[23] DISEÑO ÓPTIMO MULTIOBJETIVO DEL MECANISMO PISTÓN-BIELA-CIGÜEÑAL DE UN MOTOR DE AIRE COMPRIMIDO
2017
[24] A Review on Innovative Compressed Air Powered System
2017
[25] COMPRESSED AIR ENGINE WITH ACTIVE CONTROL UNDER PRESSURE SATURATION IN THE CONTROL OF OSCILLATING ROTATION
2017
[26] Performance Based Optimization of Intake and Injection Parameters of an Advanced Compressed Air Engine Kit
2017
[27] Optimization of Air Engine Power Output for Varying Design Parameter Values
2017
[28] Compressed Air Engine
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[29] Modification of Single Cylinder IC Engine to Run on Compressed Air-A Review
International Journal of Environmental Sciences & Natural Resources, 2017
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