Experimental investigation of hinged and spring loaded rolling piston compressors pertaining to a turbo rotary engine

Date

2011-05-01

Author

OKUR, MELİH
Akmandor, Ibrahim Sinan

Metadata

Show full item record

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Item Usage Stats

117
views

0
downloads

Hinged rolling piston compressor of a new thermodynamic cycle Pars engine promises high performance figures such as single stage high compression levels and higher volume flow discharge with competitively low input power and torque. The pumping characteristic of the present engine compressor unit has been increased by the implementation of a spring less vane configuration. The reciprocating vane which is usually operated by spring compression in air conditioning and refrigeration unit has been replaced by a hinge vane mechanism. At high speeds, the conventional spring loaded vane which is forced against the eccentrically moving rotor periphery does disconnect and starts rocking. With the new configuration, this mishap has been eliminated and subsequently resulting compressor pressure leaks have been avoided. Compressor experiments have been carried out at predetermined rotor speeds and compressed volume flow amounts and required shaft powers have been measured and derived accordingly. Experimentally determined pressure volume relations have been compared with isentropic, isothermal, isochoric compressions as well as isobaric process. It is seen that at lower speeds, hinged vane compression is half way between isentropic and isochoric compressions whereas at high speed the compression process approaches further isochoric compression behavior. The isentropic compression efficiency of the hinged vane compressor is around 85% for pressures reaching 9 atm.

Subject Keywords

Industrial and Manufacturing Engineering, Energy Engineering and Power Technology

URI

https://hdl.handle.net/11511/65645

Journal

APPLIED THERMAL ENGINEERING

DOI

https://doi.org/10.1016/j.applthermaleng.2010.11.027

Collections

Department of Aerospace Engineering, Article

Suggestions

OpenMETU
Core

Effect of design and operating parameters on the thermal performance of aluminum flat grooved heat pipes Alijani, Hossein; Cetin, Barbaros; Akkuş, Yigit; Dursunkaya, Zafer (Elsevier BV, 2018-03-05) Four aluminum flat grooved heat pipes with groove widths of 0.2, 0.4, 0.8 and 1.6 mm are fabricated and the effect of filling ratio on the thermal performance is experimentally studied for four different heat flux values of 2.1, 3.2, 4.2 and 5.3 W/cm(2). An optimum filling ratio corresponding to each heat flux is determined where the heat pipe has the best thermal performance. Thermal performance of the heat pipes are evaluated using three indicators: (i) the temperature difference between the heat source a...
Performance optimization of induction motors during voltage-controlled soft starting Zenginobuz, G; Cadirci, I; Ermiş, Muammer; Barlak, C (Institute of Electrical and Electronics Engineers (IEEE), 2004-06-01) This paper deals with the performance optimization of medium/high-power induction motors during soft starting by eliminating the supply frequency torque pulsations, and by keeping the line current constant at the preset value. Starting torque pulsations are eliminated by triggering back-to-back-connected thyristors at proper points on the first supply voltage cycle. Line current during starting can be kept constant at any preset value by a simple strategy composed of successive cosinusoidal and constant fun...
Energy-exergy and economic analyses of a hybrid solar-hydrogen renewable energy system in Ankara, Turkey ÖZDEN, Ender; Tarı, İlker (Elsevier BV, 2016-04-25) A hybrid (Solar-Hydrogen) stand-alone renewable energy system that consists of photovoltaic panels (PV), Proton Exchange Membrane (PEM) fuel cells, PEM based electrolyzers and hydrogen storage is investigated by developing a complete model of the system using TRNSYS. The PV panels are mounted on a tiltable platform to improve the performance of the system by monthly adjustments of the tilt angle. The total area of the PV panels is 300 m(2), the PEM fuel cell capacity is 5 kW, and the hydrogen storage is at ...
Experimental investigation of oil accumulation in second land of internal combustion engines İÇÖZ, TUNÇ; Dursunkaya, Zafer (ASME International, 2005-01-01) Blowback of engine oil suspended in combustion gases, when the gas flows from the piston second land back into the combustion chamber is believed to contribute to oil consumption and hydrocarbon emissions in internal combustion engines. Oil accumulation in the region between top and second compression rings is a factor that influences this phenomenon. The effects of individual parameters, such as oil film thickness and viscosity, however have still not been understood. The present study was aimed at constru...
Integrated analysis of pressure response using pressure-rate convolution and deconvolution techniques for varied flow rate production in fractured formations Al-Rbeawi, Salam (Elsevier BV, 2018-03-01) This paper introduces an integrated analysis for pressure transient behavior of conventional and unconventional multi-porous media reservoirs considering varied flow rate conditions. It focuses on the applications of pressure-rate convolution and deconvolution techniques for analyzing pressure records of homogenous single porous media, double porous media, and triple porous media reservoirs. The tasks covered in this paper are: Deconvloving pressure response, characterizing and developing analytical models ...

Citation Formats

M. OKUR and I. S. Akmandor, “Experimental investigation of hinged and spring loaded rolling piston compressors pertaining to a turbo rotary engine,” APPLIED THERMAL ENGINEERING, pp. 1031–1038, 2011, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/65645.