R M Chivu scite author profile

R M Chivu

3Publications

0Citation Statements Received

15Citation Statements Given

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"Dunarea de Jos" University of Galati, University of Minho

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Design and finite element analysis of a circular steel profile frame using Autodesk Inventor

Popescu

Chivu²,

Uzuneanu³

et al. 2022

IOP Conf. Ser.: Mater. Sci. Eng.

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The paper aims to apply the technical knowledge of recreational vehicles and the skills of using CAD applications for the design and construction of a steel profile frame. After the synthesis of the specific theoretical elements, from the specialized literature, the paper explores subassemblies of a kart, for which it proposes modeling studies. One element under analysis is the go-kart chassis. Designed in two constructive variants, the chassis is investigated in terms of rigidity, using finite element analysis specific to the Autodesk Inventor Professional application. The obtained results and the additional calculation elements, regarding the dynamics of the designed minivehicle, allow the physical realization of a chassis with increased rigidity.

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Design and finite element analysis of a lower arm using CATIA V5

Popescu

Chivu²,

Uzuneanu³

et al. 2022

IOP Conf. Ser.: Mater. Sci. Eng.

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The primary role of the suspension is to ensure the comfort of the passengers but also to protect the vehicle components against mechanical shocks caused by uneven road. It is designed for stability and sudden damping. The suspension system must first and foremost ensure the safety of the passengers of the vehicle but also their comfort. The paper aims to analyze with finite elements the lower oscilating arm in order to optimize the design and find the best material.

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Turpentine as an Additive for Diesel Engines: Experimental Study on Pollutant Emissions and Engine Performance

et al. 2023

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The need for reducing fossil fuel consumption and greenhouse gas (GHG) emissions in internal combustion engines has raised the opportunity for the use of renewable energy sources. For the progressive replacement of fossil fuels like diesel, those derived from the sustainable management of forest resources may be a good option. In Portugal, pine trees (pinus pinaster) are among the most widely cultivated tree species. Turpentine can be extracted from their sap without harming the tree. Turpentine is known to be a good fuel with a lower viscosity than regular diesel but with a comparable caloric value, boiling point and ignition characteristics, although it is not widely used as a compression ignition fuel. Moreover, recent research has highlighted the possibility of substantially increasing the turpentine yield through biotechnology, bringing it closer to economic viability. The present study investigates the performance, pollutant emissions and fuel consumption of a 1.6 L four-cylinder direct-injection diesel engine operating with several blends of commercial diesel fuel and turpentine obtained from pine trees. The aim of this study was to assess whether it would be possible to maintain or even improve the performance, fuel consumption and GHG and pollutant emissions (HC, NOx, CO and PM) of the engine with the partial incorporation of this biofuel. Turpentine blends of up to 30% in substitution of regular diesel fuel were tested. The main novelties of the present work are related to (i) the careful testing of a still-insufficiently studied fuel that could gain economical attractiveness with the recent developments in yield improvement through biotechnology and (ii) the tests conducted under fixed engine load positions typical of road and highway conditions. The addition of this biofuel only slightly impacted the engine performance parameters. However, a slightly positive effect was observed in terms of torque, with an increase of up to 7.9% at low load for the 15T85D mixture and 6.8% at high load being observed. Power registered an increase of 9% for the 15T85D mixture at low speed and an increase of 5% for the 30T70D mixture at high speed when compared to the reference fuel (commercial diesel fuel). While the efficiency and fossil GHG emissions were improved with the incorporation of turpentine, it had a mixed effect on polluting emissions such as unburned hydrocarbons (HC) and smoke (PM) and a negative effect on nitrogen oxides (NOx). NOx emissions increased by 30% for high loads and 20% for low loads, mainly as an indirect effect of the improvement in the engine performance and not so much as a consequence of the marginally higher oxygen content of turpentine relative to commercial diesel fuel.

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R M Chivu

Design and finite element analysis of a circular steel profile frame using Autodesk Inventor

Design and finite element analysis of a lower arm using CATIA V5

Turpentine as an Additive for Diesel Engines: Experimental Study on Pollutant Emissions and Engine Performance

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