WCO biodiesel production by heterogeneous catalyst and using cadmium (II)-based supramolecular coordination polymer additives to improve diesel/biodiesel fueled engine performance and emissions

WCO biodiesel production by heterogeneous catalyst and using cadmium (II)-based supramolecular coordination polymer additives to improve diesel/biodiesel fueled engine performance and emissions

Recently, research organizations and researchers have been working on finding and producing clean and alternatives to fuels such as biofuels, and thus using new technologies to reduce harmful emissions such as nanoparticle technology. In this regard the use of heterogeneous catalyst for producing bi...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry Vol. 147; no. 11; pp. 6375 - 6391
Main Authors: Elkelawy, Medhat, Etaiw, Safaa El-din H., Bastawissi, Hagar Alm-Eldin, Marie, Hassan, Radwan, Ahmed Mohamed, Dawood, Mohamed M., Panchal, Hitesh
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-06-2022
Springer
Springer Nature B.V
Subjects:
Additives
Air quality management
Alternative fuels
Analytical Chemistry
Biodiesel fuels
Biofuels
Biomass energy
Cadmium
Catalysts
Chemistry
Chemistry and Materials Science
Cooking
Coordination polymers
Diesel engines
Emissions
Esters
Innovations
Inorganic Chemistry
Measurement Science and Instrumentation
Nanomaterials
Nanoparticles
New technology
Nitrogen oxide
Norms
Physical Chemistry
Polymer industry
Polymer Sciences
Polymers
Reaction time
Thermodynamic efficiency
Titanium dioxide
Transesterification
Triglycerides
Nanoparticles
Waste cooking oil
CI engine
Emission
Heterogeneous catalyst
Combustion
Biodiesel
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Summary:Recently, research organizations and researchers have been working on finding and producing clean and alternatives to fuels such as biofuels, and thus using new technologies to reduce harmful emissions such as nanoparticle technology. In this regard the use of heterogeneous catalyst for producing biodiesel is classified as a new promising technology as of its characterization for saving in the production total cost. Heterogeneous transesterification reaction is applied to change the waste cooking oil WCO triglycerides to methyl esters with applying lower concentration of alcohol, while the yielded biodiesel has fitted the ASTM norms. In the current investigation, the maximum biodiesel yield obtained was 95% at optimal reaction conditions of 60 min reaction time, 60 °C reaction temperature, 0.01 mass% TiO2 nano-catalyst, 0.3 mass% NaoH, and 1:10 V/V% oil to methanol percentage. Also, the influence of diesel, biodiesel blend, and Cadmium (II)-Based supramolecular coordination polymer nano-additives, {[Cd (EIN)2(SCN)2]}, SCP 1, on the performance and emissions of DI diesel engine were studied experimentally by varying the engine load at 1400 rpm. While the obtained results show a great reduction in UHC, CO, and NOx emissions with increasing the SCP 1 nanomaterials. However, the CO 2 emissions show a unique increase in its value by adding SCP 1 as a nanoparticle. If 70 ppm of SCP 1 is used the brake thermal efficiency (BTE) has reached 31.2% as associated with the tested fuels. Also, temperature of the engine exhaust (EGT) was analyzed for all tested fuels, where a consequent reduction was observed.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-021-10920-1