Electric drives in agricultural machinery Experiences and visions of an implement manufacturer Norbert Rauch, Rauch Landmaschinenfabrik GmbH, Sinzheim Club of Bologna 13.11.2010 1
RAUCH Landmaschinenfabrik GmbH- a family company State of the art Motivation for a new drive Conventional Power Transmission vs. Electrical Interface Example: RAUCH-Twin-disc fertiliser spreader Potential electric drives for different agricultural machinery Summary, prospects and vision Club of Bologna 13.11.2010 2
RAUCH Landmaschinenfabrik GmbH Founded in 1921 Family owned enterprise 100 % Turnover 2009/10 43 Mio. Export share 65 % Staff 310 Students 25 Shareholders & executives: Hermann Rauch Joachim Rauch Norbert Rauch Club of Bologna 13.11.2010 3
RAUCH sites Administration still in Sinzheim, the old production halls are now destroyed New production site at the Baden-Airpark Club of Bologna 13.11.2010 4
RAUCH Innovations 1999-2009: 10 Years, 10 Medals Silver for AGT Spreader Gold for AXERA-H EMC Silver for AXERA-H Gold and Silver for AXIS Gold for the CCI Terminal Gold für AXIS EDR Club of Bologna 13.11.2010 5
RAUCH care for grain Core competence: Metering and Distributing of grains Mineral Fertilizer Seed Salt, Sand, Grit Club of Bologna 13.11.2010 6
RAUCH the Range of Success Seedtechnology Fertilizerspreaders: Disc- /Boomtechnology Wintertimespreaders Club of Bologna 13.11.2010 7
State of the art Motivation for a new drive Mechanical Drives Fixed relationship with the tractor engine speed difficult power distribution on complex agricultural machinery Pro: High power density and robustness Hydraulic Drives Unfavourable efficiency, high oil heating levels Limited speed regulation options Potential for oil leakage Pro: High force density Club of Bologna 13.11.2010 8
State of the art Motivation for a new drive Electrification of agricultural machinery offers another innovative interface: Optimum controllability Good power density with gearbox Simple power distribution across complex agricultural a machinery Reliability in agricultural application Combination with navigation and automation An innovative solution for higher productivity, safety and convenience We have to learn about all the opportunities! Club of Bologna 13.11.2010 9
Hydraulic interface vs. electrical interface Electrical power interface The principle is still the same Converter DC AC Converter DC Tractor = Power sourceac Generator = Hydraulic pump Control block hydraulic Frequency Pump converter = "Electrical control block" Hydraulic power interface - Consistent interface - Universal application Club of Bologna 13.11.2010 10
Alternative Architectures Generator on the implement Regulation and distribution on the implement= scenario for "old" tractors Converter Converter Important: Compatibility of the architectures! "Standardisation" PTO Converter "Large" number of drives on the implement: Generator e on the tractor + Regulation and distribution on the implement Club of Bologna 13.11.2010 11
Twin-disc fertiliser spreader with hydraulic drive Spreader adjustment can be set Right/Left independently Disc speed- low controllability Spreading point Dosage Automatic fertiliser flow regulation: Speed sensor on the spreader discs Pressure sensors on the hydraulic motors Return pressure sensor- sensors needed 400 350 Mass flow [kg/m min] 300 250 200 150 100 bar 50 0 0 10 20 30 40 50 60 Pressure difference [bar] Club of Bologna 13.11.2010 12
Spreading Technology of Twin Disc Fertilizer spreaders Spread pattern and overlapping Schiefes Vorgewende Streubreite 56 m 0.07 006 0.06 0.05 0.04 0.03 0.02 30 m richtung 36 m amtlänge Streubild in Fahrtr Ges 0.01 0 Keil 80 30 60-40 20 40-30 10 20-20 0-10 -10-20 0 enge, % D ü n g e rm 100 0-30 -20-10 0 10 20 30 Streubreite, m Controllability of disc d -30 10 Fahrtrichtung, mspeed is needed Streubreite, m Vorgewende Club of Bologna 13.11.2010 13
Step response: hydraulic vs. electrical drive of a spreader disc Step response - Spreader disc speed Step response hydraulic - Spreader vs. Step disc electrical response speed main - Spreader drive disc speed hydraulic vs. electrical main hydraulic drive vs. electrical main drive 900 900 target speed response hydraulic driven 900 response electric driven target speed response hydraulic driven target speed response electric driven response hydraulic driven response electric driven sc speed [r rpm] di disc speed [rp pm] 600 300 600 300 disc speed [rp pm] 600 300 0 0 2 0 4 6 8 10 0 25 27 29 31 33 35 time [sec.] 0 5 10 15 20 time [sec.] 25 30 35 time [sec.] Club of Bologna 13.11.2010 14
Twin-Disc Fertiliser Spreader With Electric Drive Disc drive 900 RPM 12 V Eccentric agitator drive 17 RPM 1. No sensors needed 2. Torque measurement = Current/Voltage Disc drive 900 RPM Gearbox 5,5:1 480 V motor 5000 RPM 480 V motor 5000 RPM Gearbox 55:1 5,5:1 Club of Bologna 13.11.2010 15
RAUCH EDR Twin-Disc Fertiliser Spreader 80 70 "Neat and tidy" coupling area 60 Very good efficiency 50 with optimum setting options %] efficiency [ 40 30 20 10 0 electrical spreader hydraulic spreader at Power Beyond hydraulic spreader at SCV mechanical spreader 6 8 10 12 14 16 18 20 22 24 26 disk torque [Nm] Club of Bologna 13.11.2010 16
Prospects for AGT Pneumatic Fertiliser Spreader Working Width 36m - GPS-Controlled Hydraulic fan drive with PTO-driven pump p Oil container with cooling Very low efficiency of the hydraulic drive Hydraulic cam wheel drive 6 hydraulic motors Club of Bologna 13.11.2010 17
Prospects for a pneumatic seed drill Hydraulic fan drive Very low efficiency of the hydraulic drive 12 V metering device drive Hydraulic push-fit pump Club of Bologna 13.11.2010 18
continue on the proved and tested" path? Club of Bologna 13.11.2010 19
or an "integrated solution" as a vision for the future Easy operator input via the ISOBUS display Club of Bologna 13.11.2010 20
Summary and Prospects Electric drives open up new perspectives for agricultural machinery Drives precisely regulated on an as-required basis Increased system level efficiencies Reduced d consumption of fossil fuels (diesel, hydraulic oil) Easier power distribution Safe and fast coupling of attachable and towed agricultural machinery Optimised i operation using the ISOBUS terminal Club of Bologna 13.11.2010 21
Summary and Prospects Introduction of "electric" tractor/machinery combinations The advantages of electrification will increase the amount of available agricultural machinery Electrification will optimise processes and reduce energy requirements and consumption. Coordinated development of a consistent interface is required (the hydraulic interface is a desaster!) Interim scenarios must make it possible to efficiently use electric agricultural machinery with older tractors too. Club of Bologna 13.11.2010 22
Summary and Prospects High degree of potential for self-propelled agricultural machinery Optimum and easy power distribution Energy-saving drives and regulated in an optimum way Electric drives, satellite navigation and automation Unknown new options for process optimisation Reduction in the costs of agricultural products Increase in productivity in agricultural production Club of Bologna 13.11.2010 23
Visions in future machine generations for agriculture Agriculture is the pioneer in production and use of renewable energies. Every farm will produce its own electric energy. Storage of energy by batteries will be simple, reliable and cost-efficient. The self-produced energy will be used in all electrical agricultural machines and tractors Modern electronic information- and sensor-based control systems will provide a highly efficient and sustainable production. Maintenance, extended life-time of machines and recycling will save also not renewable materials. Club of Bologna 13.11.2010 24
Vision 2030-2040-2050 Tramlines used to add underground power lines for vehicles, batteries and the agricultural processes Wireless power supply with conducting paths between the tramlines Controlled traffic via electromagnetic induction Sustainable power supplies, e.g.wind power, could be used, in particular in the field`s proximity Club of Bologna 13.11.2010 25
Vision 2030-2040-2050 Is there a path leading to future agricultural systems working in a field and state-of-the-art tram lines today? WEB-Site from Bombardier.com: The PRIMOVE`s outstanding feature: Safe and contactless inductive power transfer. Supply components invisible hidden in the vehicle and underneath the track. Reliable and wear resistant t Operates in all weather and ground conditions Power levels from 100 kw to up to 500 kw Let`s think beyond Club of Bologna 13.11.2010 26
"The question is no longer if electric drives will come into use in agriculture; but rather, how quickly this will take place. " Club of Bologna 13.11.2010 27
RAUCH Landmaschinenfabrik GmbH Landstraße 14 76547 Sinzheim www.rauch.de 28