A Comprehensive Review on Performance Improvement of Diesel and Biodiesel fueled CI Engines using Additives

doi:10.23940/ijpe.21.09.p8.815824

Abstract

Abstract: Due to rising demand and prices of fossil fuels and their adverse impacts on health and environment, research is now conducted on alternative fuels. Biodiesel is an alternative fuel derived from various edible and non-edible feedstocks. It is utilized as either purely biodiesel or as part of a diesel mixture. However, it has a few disadvantages such as inferior cold flow properties leading to poor cold starting, lower combustion quality, and higher nitrogen oxide emission. These drawbacks can be overcome by using fuel additives. Additives that can be used are metallic, antioxidant, oxygenated, carbon based, organic, or a combination of these. Recent research demonstrated that use of additives improves thermal and physical properties of fuel, enhances combustion characteristics (flame temperature, heat transfer rate, and ignition delay), and increases emission performance. The research available are vast, uncategorized and to some extent inconsistent. Recent research on nano sized particles used as additives for diesel and biodiesel fuel in CI engines is summarized in this article. The future scope underlines the necessity of an environment friendly and economically feasible nano particle additive for CI engines.

Key words: biodiesel, engine performance, emission, additives

Kiran Chaudhari, Nilesh P. Salunke, Vijay R. Diware. A Comprehensive Review on Performance Improvement of Diesel and Biodiesel fueled CI Engines using Additives [J]. Int J Performability Eng, 2021, 17(9): 815-824.

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

References

[1] US EIA, International Energy Outlook 2019 with projections to 2050, US Energy Information Administration, https://www.eia.gov/outlooks/ieo/pdf/ieo2019.pdf, accessed in June 2021.
[2] Konur O.ed. Biodiesel Fuels: Science, Technology, Health, and Environment. CRC Press, 2021.
[3] Ministry of Petroleum and Natural Gas, Biofuels towards Atmanirbhar Bharat, Govt. of India, http://petroleum.nic.in/sites/default/files/WBD_10aug20.pdf, accessed in June 2021.
[4] Singh A.P., Sharma Y.C., Mustafi N.N., andAgarwal A.K.Alternative Fuels and Their Utilization Strategies in Internal Combustion Engines. Springer Singapore, 2020.
[5] Soudagar M.E.M., Nik-Ghazali, N.N., Kalam, M.A., Badruddin, I.A., Banapurmath, N.R., and Akram, N. The effect of nano-additives in diesel-biodiesel fuel blends: A comprehensive review on stability, engine performance and emission characteristics.Energy Conversion and Management, 178, pp. 146-177, 2018.
[6] Saxena V., Kumar N., andSaxena V.K.A comprehensive review on combustion and stability aspects of metal nanoparticles and its additive effect on diesel and biodiesel fuelled CI engine.Renewable and Sustainable Energy Reviews, 70, pp. 563-588, 2017.
[7] Madiwale S., Karthikeyan A., andBhojwani V.A comprehensive review of effect of biodiesel additives on properties, performance, and emission. In IOP Conference Series: Materials Science and Engineering, IOP Publishing, 197(1), pp. 012015, May 2017.
[8] Van Gerpen, J. Basics of Diesel Engines and Diesel Fuels. In The biodiesel handbook, AOCS Press, pp. 21-30, 2010.
[9] Mamat, R., Sani, M.S.M., Sudhakar, K., Kadarohman, A., and Sardjono, R.E. An overview of Higher alcohol and biodiesel as alternative fuels in engines.Energy Reports, 5, pp. 467-479, 2019.
[10] Atabani A.E.,El-Sheekh, M.M., Kumar, G., and Shobana, S. Edible and nonedible biodiesel feedstocks: Microalgae and future of biodiesel. In Clean Energy for Sustainable Development, Academic Press, pp. 507-556, 2017.
[11] Kour D., Rana K.L., Yadav N., Yadav A.N., Rastegari A.A., Singh C., Negi P., Singh K., andSaxena A.K.Technologies for biofuel production: current development, challenges, and future prospects. In Prospects of renewable bioprocessing in future energy systems, Springer, Cham, pp. 1-50, 2019.
[12] Bhatia S.K., Bhatia R.K., Jeon J.M., Pugazhendhi A., Awasthi M.K., Kumar D., Kumar G., Yoon J.J., andYang Y.H.An overview on advancements in biobased transesterification methods for biodiesel production: Oil resources, extraction, biocatalysts, and process intensification technologies. Fuel, 285, pp. 119117, 2021.
[13] K Pikula, K., Zakharenko, A., Stratidakis, A., Razgonova, M., Nosyrev, A., Mezhuev, Y., Tsatsakis, A., and Golokhvast, K. The advances and limitations in biodiesel production: feedstocks, oil extraction methods, production, and environmental life cycle assessment.Green Chemistry Letters and Reviews, 13(4), pp. 275-294, 2020.
[14] Pradana Y.S., Hidayat A., Prasetya A., andBudiman A.Biodiesel production in a reactive distillation column catalyzed by heterogeneous potassium catalyst.Energy Procedia, 143, pp. 742-747, 2017.
[15] Sia C.B., Kansedo J., Tan Y.H., andLee K.T.Evaluation on biodiesel cold flow properties, oxidative stability and enhancement strategies: A review. Biocatalysis and Agricultural Biotechnology, 24, pp. 101514, 2020.
[16] Jose, T.K. and Anand, K.Effects of biodiesel composition on its long term storage stability.Fuel, 177, pp. 190-196, 2016.
[17] Damanik N., Ong H.C., Tong C.W., Mahlia T.M.I., and Silitonga, A.S. A review on the engine performance and exhaust emission characteristics of diesel engines fueled with biodiesel blends.Environmental Science and Pollution Research, 25(16), pp. 15307-15325, 2018.
[18] Narayanasamy M., Hashim H., andYunus N.A.Computational and experimental investigations on tailor-made biofuel blend properties.Energy Procedia, 75, pp. 23-29, 2015.
[19] Sundaram D., Yang V., andYetter R.A.Metal-based nanoenergetic materials: synthesis, properties, and applications.Progress in Energy and Combustion Science, 61, pp. 293-365, 2017.
[20] Kegl T., Kralj A.K., Kegl B., andKegl M.Nanomaterials as fuel additives in diesel engines: A review of current state, opportunities, and challenges. Progress in Energy and Combustion Science, 83, pp. 100897, 2021.
[21] Gautam, R. and Kumar, N.Effect of ethanol addition on the properties of Jatropha ethyl ester.Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 38(23), pp. 3464-3469, 2016.
[22] Singh A.P., Sharma N., Satsangi D.P., andAgarwal A.K.Effect of fuel injection pressure and premixed ratio on mineral diesel-methanol fueled reactivity controlled compression ignition mode combustion engine. Journal of Energy Resources Technology, 142(12), pp. 122301, 2020.
[23] Agarwal A.K., Katiyar V., andSingh K.Optimisation of Karanja/Jatropha-Methanol emulsification variables and their engine evaluation.Renewable Energy, 96, pp. 433-441, 2016.
[24] Agarwal A.K., Shukla P.C., Patel C., Gupta J.G., Sharma N., Prasad R.K., andAgarwal R.A.Unregulated emissions and health risk potential from biodiesel (KB5, KB20) and methanol blend (M5) fuelled transportation diesel engines.Renewable Energy, 98, pp. 283-291, 2016.
[25] Satsangi D.P., Tiwari N., andAgarwal A.K.Noise, Vibration and Combustion Inter-Relation-Ships for a compression Ignition Engine Fuelled by Ethanol-Diesel Blends.London: ICSV24, pp. 23-27, 2017.
[26] Maurya, R.K. and Agarwal, A.K.Combustion and emission behavior of ethanol fuelled homogeneous charge compression ignition (HCCI) engine (No. 2008-28-0064). SAE Technical Paper, 2008.
[27] Devarajan Y., Munuswamy D., Nagappan B., andGanesan S.Detailed study on the effect of different ignition enhancers in the binary blends of diesel/biodiesel as a possible substitute for unaltered compression ignition engine.Petroleum Science, 17, pp. 1151-1158, 2020.
[28] Balan K.N., Yashvanth U., Booma Devi, P., Arvind, T., Nelson, H., and Devarajan, Y. Investigation on emission characteristics of alcohol biodiesel blended diesel engine.Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 41(15), pp. 1879-1889, 2019.
[29] Ravi, S. and Karthikeyan, A.Effect of propanol addition on the performance and emissions characteristics of a direct injection diesel engine fuelled with waste plastic oil.International Journal of Ambient Energy, pp. 1-6, 2019.
[30] Varatharajan, K. and Pushparani, D.S.Screening of antioxidant additives for biodiesel fuels.Renewable and sustainable energy reviews, 82, pp. 2017-2028, 2018.
[31] Nagappan B., Devarajan Y., Kariappan E., Philip S.B., andGautam S.Influence of antioxidant additives on performance and emission characteristics of beef tallow biodiesel-fuelled CI engine.Environmental Science and Pollution Research, 28, pp. 12041-12055, 2021.
[32] Ramalingam S., Rajendran S., andGanesan P.Improving the performance is better and emission reductions from Annona biodiesel operated diesel engine using 1, 4-dioxane fuel additive.Fuel, 185, pp. 804-809, 2016.
[33] Ağbulut Ü., Karagöz M., Sarıdemir S., andÖztürk A.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, pp. 117521, 2020.
[34] Kumar, N. and Tomar, M.Influence of nanoadditives on ignition characteristics of Kusum (Schleichera oleosa) biodiesel.International Journal of Energy Research, 43(8), pp. 3223-3236, 2019.
[35] Ma Y., Zhu M., andZhang D.The effect of a homogeneous combustion catalyst on exhaust emissions from a single cylinder diesel engine.Applied energy, 102, pp. 556-562, 2013.
[36] Pandian A.K., Munuswamy D.B., Radhakrishana S., Ramakrishnan R.B.B., Nagappan, B., and Devarajan, Y. Influence of an oxygenated additive on emission of an engine fueled with neat biodiesel.Petroleum Science, 14(4), pp. 791-797, 2017.
[37] Dale J.G., Cox S.S., Vance M.E., Marr L.C., andHochella Jr, M.F. Transformation of cerium oxide nanoparticles from a diesel fuel additive during combustion in a diesel engine.Environmental science & technology, 51(4), pp. 1973-1980, 2017.
[38] Devarajan Y., Munuswamy D.B., andMahalingam A.Influence of nano-additive on performance and emission characteristics of a diesel engine running on neat neem oil biodiesel.Environmental Science and Pollution Research, 25(26), pp. 26167-26172, 2018.
[39] Velmurugan R., Mayakrishnan J., Induja S., Raja S., Nandagopal S., andSathyamurthy R.Comprehensive study on the effect of CuO nano fluids prepared using one-step chemical synthesis method on the behavior of waste cooking oil biodiesel in compression ignition engine.Journal of Thermal Science and Engineering Applications, 11(4), 2019.
[40] Kannan P., Jayakumar T., Anandhan R., Karpagarajan S., Arunprasad J., andThirugnanasambantham R.Effects of CuO nano additives on performance and emission characteristics of Putranjiva biodiesel.Materials Today: Proceedings, 2021.
[41] Gavhane R.S., Kate A.M., Soudagar M.E.M., Wakchaure, V.D., Balgude, S., Rizwanul Fattah, I.M., Nik-Ghazali, N.N., Fayaz, H., Khan, T.M., Mujtaba, M.A., and Kumar, R. Influence of silica nano-additives on performance and emission characteristics of Soybean biodiesel fuelled diesel engine. Energies, 14(5), pp. 1489, 2021.
[42] Soudagar M.E.M., Nik-Ghazali, N.N., Kalam, M.A., Badruddin, I.A., Banapurmath, N.R., Ali, M.A.B., Kamangar, S., Cho, H.M., and Akram, N. An investigation on the influence of aluminium oxide nano-additive and honge oil methyl ester on engine performance, combustion and emission characteristics.Renewable Energy, 146, pp. 2291-2307, 2020.
[43] Nanthagopal K., Ashok B., Tamilarasu A., Johny A., andMohan A.Influence on the effect of zinc oxide and titanium dioxide nanoparticles as an additive with Calophyllum inophyllum methyl ester in a CI engine.Energy Conversion and Management, 146, pp. 8-19, 2017.
[44] Anbazhaghan N., Karthikeyan A., Jayaprabakar J., andPrabhu A.Evaluation on the consequence of cerium oxide nanoparticle additive in biomass derived fuel blended with diesel for CI engine operation.International Journal of Ambient Energy, pp. 1-8, 2020.
[45] Bethke K.A., Kung M.C., Yang B., Shah M., Alt D., Li C., andKung H.H.Metal oxide catalysts for lean NOx reduction.Catalysis Today, 26(2), pp. 169-183, 1995.
[46] Tomar, M. and Kumar, N.Influence of nanoadditives on the performance and emission characteristics of a CI engine fuelled with diesel, biodiesel, and blends-a review.Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 42(23), pp. 2944-2961, 2020.
[47] Clavijo-Chaparro, S.L., Hernández-Gordillo, A., Camposeco-Solis, R., and Rodríguez-González, V. Water splitting behavior of copper-cerium oxide nanorods and nanocubes using hydrazine as a scavenging agent.Journal of Molecular Catalysis A: Chemical, 423, pp. 143-150, 2016.
[48] Schrand A.M., Rahman M.F., Hussain S.M., Schlager J.J., Smith D.A., andSyed A.F.Metal‐based nanoparticles and their toxicity assessment.Wiley interdisciplinary reviews: Nanomedicine and Nanobiotechnology, 2(5), pp. 544-568, 2010.
[49] El-Seesy, A.I., Nour, M., Attia, A.M., He, Z., and Hassan, H. Investigation the effect of adding graphene oxide into diesel/higher alcohols blends on a diesel engine performance.International Journal of Green Energy, 17(3), pp. 233-253, 2020.
[50] Rao S., Upadhyay J., andDas R.Manufacturing and characterization of multifunctional polymer-reduced graphene oxide nanocomposites. In Fillers and reinforcements for advanced nanocomposites. Woodhead Publishing, pp. 157-232, 2015.
[51] Ooi J.B., Ismail H.M., Swamy V., Wang X., Swain A.K., andRajanren J.R.Graphite oxide nanoparticle as a diesel fuel additive for cleaner emissions and lower fuel consumption.Energy & Fuels, 30(2), pp. 1341-1353, 2016.
[52] Zhu Y., Murali S., Cai W., Li X., Suk J.W., Potts J.R., andRuoff R.S.Graphene and graphene oxide: synthesis, properties, and applications.Advanced materials, 22(35), pp. 3906-3924, 2010.
[53] Ooi J.B., Rajanren J.R., Ismail H.M., Swamy V., andWang X.Improving combustion characteristics of diesel and biodiesel droplets by graphite oxide addition for diesel engine applications.International Journal of Energy Research, 41(14), pp. 2258-2267, 2017.
[54] Ramakrishnan G., Krishnan P., Rathinam S., andDevarajan Y.Role of nano-additive blended biodiesel on emission characteristics of the research diesel engine.International Journal of Green Energy, 16(6), pp. 435-441, 2019.
[55] Gundoshmian T.M.,Heidari-Maleni, A., and Jahanbakhshi, A. Evaluation of performance and emission characteristics of a CI engine using functional multi-walled carbon nanotubes (MWCNTs-COOH) additives in biodiesel-diesel blends. Fuel, 287, pp. 119525, 2021.
[56] Khond, V.W. and Kriplani, V.M.Experimental investigation and modeling of the evaporation rate of carbon nanotube blended emulsified Neem biodiesel.Biofuels, 2017.
[57] Singh, M. and Vander Wal, R.L. Nanostructure quantification of carbon blacks, 2019.
[58] Ettefaghi E., Rashidi A., Ghobadian B., Najafi G., Ghasemy E., Khoshtaghaza M.H., Delavarizadeh S., andMazlan M.Bio-nano emulsion fuel based on graphene quantum dot nanoparticles for reducing energy consumption and pollutants emission. Energy, 218, pp. 119551, 2021.
[59] Nair J.,Prasad Kumar, P., Thakur, A.K., Samhita and Aravinda. Influence on emissions and performance of CI engine with graphene nanoparticles blended with Karanja biodiesel. In AIP Conference Proceedings. AIP Publishing LLC, 2317(1), pp. 020017, February 2021
[60] Vinukumar K., Azhagurajan A., Vettivel S.C., andVedaraman N.Rice husk as nanoadditive in diesel-biodiesel fuel blends used in diesel engine.Journal of Thermal Analysis and Calorimetry, 131(2), pp. 1333-1343, 2018.
[61] Yahaya Khan, M., Abdul Karim, Z.A., Aziz, A.R.A., and Tan, I.M. A case study on the influence of selected parameters on microexplosion behavior of water in biodiesel emulsion droplets.Journal of Energy Resources Technology, 139(2), 2017.
[62] Abdul Karim, Z.A., Khan, M.Y., and Aziz, A.R.A. Evolution of microexplosion phenomenon in parent-child droplets of water in biodiesel emulsions enhanced by different surfactant dosages and hydrophilic-lipophilic balance values.Journal of Energy Resources Technology, 141(10), 2019.
[63] Karim Z.A.A., Kaur, E., Masharuddin, S.M.S., Khan, M.Y., and Hagos, F.Y. The characteristics of water-in-biodiesel emulsions produced using ultrasonic homogenizer.Alexandria Engineering Journal, 59(1), pp. 227-237, 2020.
[64] Chen, G. and Tao, D.An experimental study of stability of oil-water emulsion.Fuel processing technology, 86(5), pp. 499-508, 2005.
[65] Martinka J., Rantuch P., andWachter I.Impact of water content on energy potential and combustion characteristics of methanol and ethanol fuels. Energies, 12(18), pp. 3491, 2019.
[66] Breaux, B.B. and Acharya, S.The effect of elevated water content on swirl-stabilized ethanol/air flames.Fuel, 105, pp. 90-102, 2013.
[67] Madiwale S., Alagu K., andBhojwani V.Investigation of cottonseed oil biodiesel with ethanol as an additive on fuel properties, engine performance, combustion and emission characteristics of a diesel engine.Thermal Science, 24(1 Part A), pp. 27-36, 2020.
[68] Rameshbabu A., Senthilkumar G., andPrabhu A.Emission study of palm biodiesel and octanol blends in a direct injection diesel engine.International Journal of Ambient Energy, pp. 1-5, 2020.
[69] Rahman M.M., Rasul M.G., Hassan N.M.S., Azad, A.K., and Uddin, M.N. Effect of small proportion of butanol additive on the performance, emission, and combustion of Australian native first-and second-generation biodiesel in a diesel engine.Environmental Science and Pollution Research, 24(28), pp. 22402-22413, 2017.
[70] Devaraj A., Devarajan Y., andVinoth Kanna, I. Investigation on emission pattern of biodiesel and Nano-particles.International Journal of Ambient Energy, pp. 1-5, 2019.
[71] Zhu M., Ma Y., andZhang D.Effect of a homogeneous combustion catalyst on combustion characteristics of single droplets of diesel and biodiesel.Proceedings of the Combustion Institute, 34(1), pp. 1537-1544, 2013.
[72] Devarajan Y., Nagappan B., andSubbiah G.A comprehensive study on emission and performance characteristics of a diesel engine fueled with nanoparticle-blended biodiesel.Environmental Science and Pollution Research, 26(11), pp. 10662-10672, 2019.
[73] Devarajan Y., Munuswamy D.B., andMahalingam A.Investigation on behavior of diesel engine performance, emission, and combustion characteristics using nano-additive in neat biodiesel.Heat and Mass Transfer, 55(6), pp. 1641-1650, 2019.
[74] Abdollahi M., Ghobadian B., Najafi G., Hoseini S.S., Mofijur M., andMazlan M.Impact of water-biodiesel-diesel nano-emulsion fuel on performance parameters and diesel engine emission. Fuel, 280, pp. 118576, 2020.