KEYWORDS
TOPICS
ABSTRACT
Continuously increasing excessive emission of exhaust gases from motor vehicles, and specifically internal combustion engines have been recognized as a major concern by most of the industrialized countries since mid- 1960s. Emission gases containing an air pollutants have been shown to impose variety of negative effects on public health and the natural environment. This leads to introduction of variety of different, alternative powertrain system solutions which could help in reduction of powertrain generated emissions. Mentioned reduction of pollutants generated by the machine can be reached by application of different powertrain system or improved utilization and control of the existing one. Several different types of solutions have been considered over years as a concepts, prototypes or trial versions. Significant intensification of recent work across the globe have led the manufacturers to get their systems to the market pre-introduction or introduction stages. Alternative powered non-road machinery, either full electric, hybrid, fuel cell, or electrified have been already presented and successfully introduced. This paper focuses on state of the art non-road machinery alternative powertrain solutions and its applications, either specific or with a nature of general purpose machine. Variety of powertrains have been presented with attention to their operational parameters and working principles. Research involves in depth considerations of energy transfer within different components of the powertrain and the entire machine.
 
REFERENCES (52)
1.
MERKISZ, J., PIELECHA, I. Układy mechaniczne pojazdów hybrydowych. Wydawnictwo Politechniki Poznańskiej. Poznań 2015.
 
2.
MERKISZ, J., PIELECHA, I. Układy elektryczne pojazdów hybrydowych. Wydawnictwo Politechniki Poznańskiej. Poznań 2015.
 
3.
RENIUS, K.T. Fundamentals of tractor design. Springer. 2020.
 
4.
Automotive Handbook. Robert Bosch GmbH. 2014.
 
5.
RYMANIAK, Ł., LIJEWSKI, P., KAMIŃSKA, M. et al. The role of real power output from farm tractor engines in determining their environmental performance in actual operating conditions. Computers and Electronics in Agriculture, 2020, 173, 105405. https://doi.org/10.1016/j.comp....
 
6.
Regulation (EC) No 443/2009 of the European Parliament and of the Council of 23 April 2009 setting emission performance standards for new passenger cars as part of the Community’s integrated approach to reduce CO2 emissions from light-duty vehicles. http://eur-lex.europa.eu/legal....
 
7.
Regulation (EU) 2016/1628 of the European Parliament and of the Council of 14 September 2016 on requirements relating to gaseous and particulate pollutant emission limits and type-approval for internal combustion engines for non-road mobile machinery, amending Regulations (EU) No 1024/2012 and (EU) No 167/2013, and amending and repealing Directive 97/68/EC. http://eur-lex.europa.eu/legal....
 
8.
European Stage V non-road emission standards. International Council of Clean transportation. 2016. http://theicct.org/sites/defau....
 
9.
FEBIG, M., WIARTALLA, A., HOLDERBAUM, B. et al. Particulate emissions from diesel engines: correlation between engine technology and emissions. Journal of Occupational Medicine and Toxicology. 2014, 9(6). https://doi.org/10.1186/1745-6....
 
10.
CWIKOWSKI, P., TEODORCZYK, A. The latest achievements in gasoline and diesel injection technology for the internal combustion engines. Journal of KONES Powertrain and Transport. 2009, 16(2), 79-90. http://yadda.icm.edu.pl/yadda/....
 
11.
DZIUBINSKI, M., DROZD, A., ADAMIEC, M. et al. Energy intensity of the electric vehicle. Advances in Science and Technology Research Journal. 2017, 11(4), 27-34. https://doi.org/10.12913/22998....
 
12.
MALIK, A., KOHLI, S. Electric tractors: survey of challenges and opportunities in India. Materials Today: Proceedings. 2020, 28, 2318-2324. https://doi.org/10.1016/j.matp....
 
13.
MOREDA, G.P., MUNOZ-GARCIA, M.A., BARRIEIRO, P. High voltage electrification of tractor and agricultural machinery – a review. Energy Conversion and Management. 2016, 115, 117-131. https://doi.org/10.1016/j.enco....
 
14.
WEYMANN, S. Electric drivelines for tractors and agricultural machinery. Part 1. Agricultural, Horticultural and Forest Engineering. 2016, 61(4), 6-8.
 
15.
WEYMANN, S. Electric drivelines for tractors and agricultural machinery. Part 2. Agricultural, Horticultural and Forest Engineering. 2016, 61(5), 8-10.
 
16.
WEYMANN, S. Electric drivelines for tractors and agricultural machinery. Part 3. Agricultural, Horticultural and Forest Engineering. 2016, 61(6), 9-11.
 
17.
WEYMANN, S. Electric drivelines for tractors and agricultural machinery. Part 4. Agricultural, Horticultural and Forest Engineering. 2017, 62(1), 11-14.
 
18.
MOUSAZADEH, H., KEYHANI, A., JAVADI, A. et al. Optimal power and energy modeling and range evaluation of a solar assist plug-in hybrid electric tractor (SAPHT). American Society of Agricultural and Biological Engineers. Transactions of the ASABE. 2010, 53(4), 1025-1035. https://doi.org/10.13031/2013.....
 
19.
DREW, D. Terex Titan. It was a big one. Earthmovers Magazine. http://www.earthmoversmagazine... (accessed on 10.06.2021).
 
20.
BERNHARD, B. Untersuchungen zur Bewegung Stufenloser Fahrantriebe für Mahdrescher. Universitat Hochenheim. 2011. http://opus.uni-hohenheim.de/v....
 
21.
Caterpillar trade press media representatives. Updated Cat D7E features advanced technology to boost productivity. 2014. http://www.cat.com/en_GB/news/... (accessed on 10.06.2021).
 
22.
JOHNSON, K.C., BURNETTE, A., CAO, T. et al. Hybrid off-road equipment in-use emission evaluation. FY 2010-11 air quality improvement project. Hybrid off-road equipment pilot project. California Air Resources Board. 2013.
 
23.
HOY, R., ROHRER, R., LISKA, A. et al. Agricultural industry advanced vehicle technology: Benchmark study for reduction in petroleum use. Idaho National Laboratory. 2014.
 
24.
PUHOVOY, A.A. Agricultural tractor with pure electromechanical drivetrain. SAE International Journal of Commercial Vehicles. 2011, 4(1), 275-285. https://doi.org/10.4271/2011-0....
 
25.
Belaz. http://belaz.by/en/products/pr... (accessed on 10.06.2021).
 
26.
Construction Equipment. http://www.constructionequipme... (accessed on 10.06.2021).
 
27.
SOBOTZIK, J. Electrische Antriebstechnik. Eine neue Chance in Mobile Arbeitmaschinen. VDI Workshop Electrification. Wieselburg. 2013.
 
28.
HAHN, K. High voltage electric tractor-implement interface. SAE International Journal of Commercial Vehicles. 2009, 1(1), 383-391. https://doi.org/10.4271/2008-0....
 
29.
PESSINA, D., FACCHINETTI, D. Gemelli diversi. Macchine Agricole. 2009, 7, 44-51. http://www.researchgate.net/pu....
 
30.
KRAH, J.O., SOBOTZIK, J., HAMBLOCH, M. Tractor/implement electrification. Opportunities and challenges. EtherCat in Mobile Applications. Frankfurt. 2013.
 
31.
STOSS, K.J, SHI, B., SOBOTZIK, J. et al. Tractor power for implement operation – mechanical, hydraulic, and electrical: An overview. Agricultural Equipment Technology Conference, Kansas City. 2013.
 
32.
BUNING, E.A. Electric drives in agricultural machinery. An approach from the tractor side. Bologna, EIMA International, 2015.
 
33.
MUNCH, P. Sensorik und Elekrifirizierung bei Landmachinen. John Deere. 2013.
 
34.
Eautopowr Eroffnet neue Traktorbe-triebsweisen. http://flurundfurche.de/eautop... (accessed on 10.06.2021).
 
35.
Das Gullefass Arbait mit. http://www.deere.de/de/blog/ar... (accessed on 10.06.2021).
 
36.
John Deere SESAM-batterie-traktor. http://www.topagrar.com/techni... (accessed on 10.06.2021).
 
37.
Into the future with new drive. http://www.kramer-online.com/e... (accessed on 10.06.2021).
 
38.
Fendt e100 Vario. Unser antrieb fur the zukunft. http://www.fendt.com/at/e100-v... (accessed on 10.06.2021).
 
39.
An der Langen Leine. http://www.faz.net/aktuell/tec... (accessed on 10.06.2021).
 
40.
PICKEL P. Trends in tractor development. John Deere ETIC. Wieselburg. 2020.
 
41.
Rigitrac Traktorenbau AG. http://www.rigitrac.ch/produkt... (accessed on 10.06.2021).
 
42.
Future of farming. http://www.deere.co.uk/en/agri... (accessed on 10.06.2021).
 
43.
The industry’s first fully electric backhoe loader-The Case 580 EV http://www.casece.com/northame... (accessed on 10.06.2021).
 
44.
The new electric JCB 525-60e compact telehandler. http://www.jcb.com/en-gb/produ... (accessed on 10.06.2021).
 
45.
John Deere joint its first electric powered backhoe with National Grid. http://www.deere.com/en/our-co... (accessed on 10.06.2021).
 
46.
The autonomous swarm tractor from John Deere. http://thefurrow.co.uk/the-aut... (accessed on 10.06.2021).
 
47.
Farmer.pl http://www.farmer.pl/technika-... (accessed on 10.06.2021).
 
48.
CABAN, J., ZARAJCZYJ, J., SZMIGIELSKI, M. et al. Hybrid drive as a future in agricultural technology. Proceedings of the Institute of Vehicles. 2018, 3(177), 19-27.
 
49.
Komatsu customer support materials. Komatsu hybrid excavator. World-first hybrid technology. http://www.komatsu.com/ (accessed on 10.06.2021).
 
50.
TETZLAFF, S. System-wide electrification and appropriate functions of tractor and implement. Landtechnik. 70(5), 203-216. 2015. http://doi.org/10.15150/lt.201....
 
51.
Steyr traktoren. http://www.steyr-traktoren.com... (accessed on 10.06.2021).
 
52.
OSINENKO, P. Optimal slip control for tractors with feedback of drive torque. Technische Universitat Dresden. 2014.
 
 
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