Zusammenfassung
Content Tractor Drive Trains An Analysis of Mixed Hydraulic and Electric Configurations for the Actuation of Tractor Auxiliary and Implement Functions to Reduce Power Consumption 1 The development of a reference working cycles for agricultural tractors 15 Performance optimization of CVT standard tractors in front loading application 21 Numerical simulation of alternative powertrains and fuels in agricultural tractors 29 Fuel Cells A Fuel Cell Tractor in Operation – Concepts and Field Data 39 Fuel cell electric powertrain for the agricultural tractor – FCTRAC: development, performance, and benchmarking 49 Fuel cell electric tractor powered with biogenic hydrogen – Vehicle design and architecture 57 “GrindStar“ – More efficiency, effectiveness, and economy with ultrashallow soil cultivation 63 High Accuracy and High-Speed Crop Root Position Detection for Green-on-Green Mechanical Weeding 69 A comparison between conventional calibration experiments and the Excavator Test for DEM soil calibration 79 Technological and energetic aspects of a transverse pull 87 Sensors and Detection Classifying tractor o...
Schlagworte
Taktor Antriebsstrang Kraftstoff Zellen Traktor Hilfszusatz landwirtschaftliche Traktoren Frontlader Anwendungen alternative Antriebe biogener Wasserstoff Kultivierung ultaflacher Böden Hochgeschwindigkeits-Ertrags-Wurzelerkennung Grün zu Grün mechanisches Jäten tractor drive trains fuel cells tractor auxiliary agricultural tractors front loading application alternative powertrains biogenic hydrogen ultrashallow soil cultivation High-Speed Crop Root Position Detection Green-on-Green Mechanical Weeding Agricultural Disc Mower Machinery Agricultural Mobile Robot- 39–62 Fuel Cells 39–62
- 63–92 Cultivation 63–92
- 93–124 Sensors and Detection 93–124
- 125–154 Combine Harvester 125–154
- 155–174 Harvesting Machines 155–174
- 175–208 Automation 175–208
- 209–234 Safety 209–234
- 235–268 Tractors And Tires 235–268
- 269–294 Concepts In Tractors 269–294
- 341–370 Concepts and Agronomy 341–370
- 371–394 Communication Systems 371–394
- 395–424 Simulation 395–424
- 425–462 Sustainability 425–462
- 463–482 Automation 463–482
- 483–488 Quo Vadis bale twine? 483–488
6 Treffer gefunden
- „... refueling truck is to be simulated both in the variant with 300 bar and with 700 bar. In this case, the ...” „... seen that the tractor working time using the refueling truck at 700 bar produces a significant ...” „... assumed to total of about 18 €/h [11]. The investing costs for a refueling truck or mobile container are ...”
- „... Figure 3. Unlike on-highway trucks, diesel fuel is delivered to Ag machines in fields. Other differences ...” „... . Fig.3 (left): main crop production steps; (right): key differences from a long haul truck Due to much ...” „... more fuel per hour than an equivalent powered commercial truck, as shown in Figure 4, based on engine ...”
- „... Self-Decoupled Six-Axis Wheel Force Transducer for a Heavy Truck. Proceedings of the Institution of Mechanical ...”
- „... success (mining haul trucks being a notable exception). Product liability concerns challenge this ...”
- „... significant differences between the simulation of cars or trucks compared to agricultural machinery. Examples ...”
- „... . Belov, „helyOS – Highly Efficient Online Yard Operating System“, in Commercial Vehicles 2019: – Truck ...”