Open Access
Issue |
Sci. Tech. Energ. Transition
Volume 78, 2023
|
|
---|---|---|
Article Number | 4 | |
Number of page(s) | 10 | |
DOI | https://doi.org/10.2516/stet/2022021 | |
Published online | 17 February 2023 |
- Kularathne I.W., Gunathilake C.A., Rathneweera A.C., Kalpage C.S., Rajapakse S. (2019) The effect of use of biofuels on environmental pollution – a review, Int. J. Renewable Energy Res. 9, 3, 1355–1367. [Google Scholar]
- Alsultan A.G., Asikin Mijan N., Mansir N., Razali S.Z., Yunus R., Taufiq-Yap Y.H. (2020) Combustion and emission performance of CO/NOx/SOx for green diesel blends in a swirl burner, ACS Omega 6, 1, 408–415. [Google Scholar]
- Zhao J., Wei Q., Wang S., Ren X. (2021) Progress of ship exhaust gas control technology, Sci. Total Environ. 799, 149437. [CrossRef] [Google Scholar]
- Dhahad H.A., Chaichan M.T. (2020) The impact of adding nano-Al2O3 and nano-ZnO to Iraqi diesel fuel in terms of compression ignition engines’ performance and emitted pollutants, Therm. Sci. Eng. Prog. 18, 100535. [CrossRef] [Google Scholar]
- Anwar M.N., Fayyaz A., Sohail N.F., Khokhar M.F., Baqar M., Khan W.D., Rasool K., Rehan M., Nizami A.S. (2018) CO2 capture and storage: a way forward for sustainable environment, J. Environ. Manage. 226, 131–144. [CrossRef] [Google Scholar]
- Yusop A.F., Mamat R., Yusaf T., Najafi G., Mat Yasin M.H., Khathri A.M. (2018) Analysis of particulate matter (PM) emissions in diesel engines using palm oil biodiesel blended with diesel fuel, Energies 11, 5, 1039. [CrossRef] [Google Scholar]
- Hong W., Yuan C., Xie F., Yan S., Chen J. (2018) Particulate matter and particle-bound PAHs emissions from gasoline direct injection (GDI) engine with methanol–gasoline blended fuel during start, Int. J. Automot. Technol. 19, 4, 717–726. [CrossRef] [Google Scholar]
- Islam A.K.M.A., Yaakob S.R.P.P.Z. (2018) Non-edible vegetable oils as renewable resources for biodiesel production: south-east Asia perspective, in: Nageswara-Rao M., Soneji J.R. (eds.), Advances in Biofuels and Bioenergy. IntechOpen. https://doi.org/10.5772/intechopen.73304. [Google Scholar]
- Kumar A., Tirkey J.V., Shukla S.K. (2021) Comparative energy and economic analysis of different vegetable oil plants for biodiesel production in India, Renew. Energy 169, 266–282. [CrossRef] [Google Scholar]
- Ishola F., Adelekan D., Mamudu A., Abodunrin T., Aworinde A., Olatunji O., Akinlabi S. (2020) Biodiesel production from palm olein: a sustainable bioresource for Nigeria, Heliyon 6, 4, e03725. [CrossRef] [PubMed] [Google Scholar]
- ShenavaeiZare T., Khoshsima A., ZareNezhad B. (2021) Production of biodiesel through nanocatalytic transesterification of extracted oils from halophytic safflower and salicornia plants in the presence of deep eutectic solvents, Fuel 302, 121171. [CrossRef] [Google Scholar]
- Khan H.M., Iqbal T., Ali C.H., Javaid A., Cheema I.I. (2020) Sustainable biodiesel production from waste cooking oil utilizing waste ostrich (Struthio camelus) bones derived heterogeneous catalyst, Fuel 277, 118091. [CrossRef] [Google Scholar]
- Gavhane R.S., Kate A.M., Soudagar M.E.M., Wakchaure V.D., Balgude S., Rizwanul Fattah I.M., Nik-Ghazali N.-N., et al. (2021) Influence of silica nano-additives on performance and emission characteristics of Soybean biodiesel fuelled diesel engine, Energies 14, 5, 1489. [CrossRef] [Google Scholar]
- Adzmi M.A., Abdullah A., Abdullah Z., Mrwan A.G. (2019) Effect of Al2O3 and SiO2 metal oxide nanoparticles blended with POME on combustion, performance and emissions characteristics of a diesel engine, Int. J. Automot. Mech. Eng. 16, 3, 6859–6873. [CrossRef] [Google Scholar]
- Özgür T., Özcanli M., Aydin K. (2015) Investigation of nanoparticle additives to biodiesel for improvement of the performance and exhaust emissions in a compression ignition engine, Int. J. Green Energy 12, 1, 51–56. [CrossRef] [Google Scholar]
- Rajeswari G., Jacob S., Banerjee R. (2019) Perspective of liquid and gaseous fuel production from aquatic energy crops, in: Sustainable Biofuel and Biomass, Apple Academic Press, pp. 167–182. [CrossRef] [Google Scholar]
- Liu K., Devarajan Y., Nithyanantham V., Nalla B.T., Krishnamurthy V. (2021) An experimental study on transesterification process and emission analysis of diesel engine propelled with Capparis spinosa biodiesel, Biomass Convers. Biorefin. 1–8. [Google Scholar]
- Singh A.A.M.M., Franco P.A., Jinu G.R., Radhakrishnan A. (2021) Comparison of RSM and ANN optimization techniques and modeling of ultrasonic energy assisted trans-esterification of salviniaceae filiculoides oil blended to biodiesel, Bonfring Int. J. Ind. Eng. Manage. Sci. 11 1, 08–19. [Google Scholar]
- Arefin M.A., Rashid F., Islam A. (2021) A review of biofuel production from floating aquatic plants: an emerging source of bio-renewable energy, Biofuels Bioprod. Biorefin. 15, 2, 574–591. [CrossRef] [Google Scholar]
- Golzary A., Hosseini A., Saber M. (2021) Azolla filiculoides as a feedstock for biofuel production: cultivation condition optimization, Int. J. Energy Water Resources 5, 1, 85–94. [CrossRef] [Google Scholar]
- Dabi M., Sahoo B.B., Saha U.K. (2021) Increase of efficiency and reduction of CO and NOx emissions in a stationary compression ignition engine run on Mesua ferrea Linn oil-diesel and diethyl ether, Therm. Sci. Eng. Prog., 25, 100980. [CrossRef] [Google Scholar]
- de Avila S.G., Silva L.C.C., Matos J.R. (2016) Optimisation of SBA-15 properties using Soxhlet solvent extraction for template removal, Microporous Mesoporous Mater. 234, 277–286. [CrossRef] [Google Scholar]
- Thiruvenkatachari S., Saravanan C.G., Edwin Geo V., Vikneswaran M., Udayakumar R., Aloui F. (2021) Experimental investigations on the production and testing of azolla methyl esters from Azolla microphylla in a compression ignition engine, Fuel 287, 119448. [CrossRef] [Google Scholar]
- Raman L.A., Deepanraj B., Rajakumar S., Sivasubramanian V. (2019) Experimental investigation on performance, combustion and emission analysis of a direct injection diesel engine fuelled with rapeseed oil biodiesel, Fuel 246, 69–74. [CrossRef] [Google Scholar]
- Elkelawy M., Bastawissi H.A.E., Esmaeil K.K., Radwan A.M., Panchal H., Sadasivuni K.K., Ponnamma D., Walvekar R. (2019) Experimental studies on the biodiesel production parameters optimization of sunflower and soybean oil mixture and DI engine combustion, performance, and emission analysis fueled with diesel/biodiesel blends, Fuel 255, 115791. [CrossRef] [Google Scholar]
- Ağbulut Ü., Karagöz M., Sarıdemir S., Öztürk A. (2020) Impact of various metal-oxide based nanoparticles and biodiesel blends on the combustion, performance, emission, vibration and noise characteristics of a CI engine, Fuel 270, 117521. [CrossRef] [Google Scholar]
- El-Seesy A.I., Abdel-Rahman A.K., Bady M., Ookawara S.J.E.C. (2017) Performance, combustion, and emission characteristics of a diesel engine fueled by biodiesel- diesel mixtures with multi-walled carbon nanotubes additives, Energy Convers. Manag. 135, 373–393. [CrossRef] [Google Scholar]
- Narayanasamy B., Jeyakumar N. (2019) Performance and emission analysis of methyl ester of Azolla algae with TiO2 Nano additive for diesel engine, Energy Sources A: Recovery, Util. Environ. Eff. 41, 12, 1434–1445. [CrossRef] [Google Scholar]
- Abed K.A., Gad M.S., El Morsi A.K., Sayed M.M., Abu Elyazeed S. (2019) Effect of biodiesel fuels on diesel engine emissions, Egypt. J. Petrol. 28, 2, 183–188. [CrossRef] [Google Scholar]
- Atmanli A., Yilmaz N. (2020) An experimental assessment on semi-low temperature combustion using waste oil biodiesel/C3–C5 alcohol blends in a diesel engine, Fuel 260, 116357. [CrossRef] [Google Scholar]
- El-Seesy A.I., Xuan T., He Z., Hassan H. (2020) Enhancement the combustion aspects of a CI engine working with Jatropha biodiesel/decanol/propanol ternary combinations, Energy Convers. Manag. 226, 113524. [CrossRef] [Google Scholar]
- Sathish T., Singaravelu D.K. (2020) Combustion analysis using third generation biofuels in diesel engine, NISCAIR-CSIR, India. [Google Scholar]
- Sathish T. (2019) Profit maximization in reverse logistics based on disassembly scheduling using hybrid bee colony and bat optimization, Trans. Can. Soc. Mech. Eng. 43, 4, 551–559. [CrossRef] [Google Scholar]
- Karthickeyan V. (2019) Effect of combustion chamber bowl geometry modification on engine performance, combustion and emission characteristics of biodiesel fuelled diesel engine with its energy and exergy analysis, Energy 176, 830–852. [CrossRef] [Google Scholar]
- Karthikeyan S., Prathima A. (2016) Emission analysis of the effect of doped nano- additives on biofuel in a diesel engine, Energy Sources A: Recovery Util. Environ. Eff. 38, 24, 3702–3708. [CrossRef] [Google Scholar]
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