Report: Agricultural Tractors and Alternative Fuels
Introduction:
For many, it is clear that agricultural tractors will increasingly run on alternative energy sources in the future, moving away from fossil fuels like diesel. However, there is a challenge in this transition. On one hand, there needs to be an available alternative fuel, and on the other hand, there needs to be sufficient demand for it. The time for waiting and hesitation is over. Some manufacturers and early adopters are already taking steps towards using tractors with lower CO2 emissions or even completely fossil-free options.
Initiating the Development of Alternative Fuels
The early adopters of alternative fuel tractors are satisfied with the technical performance of their machines. Although their experiences are relatively recent, they have confidence in the chosen technology. Their motivation stems from the desire to initiate a development that is inevitable for the future and their willingness to invest in it. They understand that the current technology is not the final solution but an important step towards it. Different systems have their own advantages and disadvantages, and it is likely that multiple systems will succeed in the future, each suited to specific situations. However, there is still room for improvement in terms of technical development and legislation regarding hydrogen storage, transport, and self-generation.
Agromec with 2,000 kg Heavy Battery in Front Linkage
Van Wijlen, a contractor company in the Netherlands, is the first user of a fully electric Agromec 700 Vario Electric tractor. The electric motor of this tractor delivers about 200 hp (150 kWh). Van Wijlen uses the tractor mainly for infrastructure and agricultural engineering work. The company aims to contribute to a world that is less dependent on fossil fuels. The tractor has a 70 kWh battery on board, but the majority of the energy is supplied by a 2,000 kg battery in the front linkage. While the electric tractor lasts less time compared to a diesel-powered one, it can easily run a normal working day with two battery charges.
Qualified Driver Drives Agromec
Jan van der Zwaan in the Netherlands has been using the same Agromec tractor for a few months. He mainly uses the tractor for earth moving and road construction work. Van der Zwaan emphasizes the importance of having a qualified driver for the electric tractor due to safety concerns related to the 800-volt system. The battery can be changed within minutes using the quick-connect system, but it requires knowledge and responsibility. Van der Zwaan also mentions that the tractor’s technical performance has been flawless.
Charging Batteries
Efficient use of the electric tractor requires a well-established infrastructure for charging batteries. On average, it takes about 3 hours to fully charge the batteries, although there are systems that can do it within 1 hour. In normal working conditions, where the tractor is not running at full load all day, the battery needs to be changed at least once a day. The additional cost of investing in an electric tractor is around €500,000.
US Customer Shares Experiences with Monarch MK-V
Coastal Vineyard Care Management in California recently acquired its first set of Monarch MK-V electric autonomous tractors. The MK-V offers continuous power of 40 hp (30 kW) and short peak power bursts of up to 75 hp (55 kW). The company has not yet utilized the tractor’s autonomous capabilities but plans to do so in the future. The MK-V’s battery life has been satisfactory, with 53% remaining after 7 hours of operation. The company sees the potential for reduced costs and increased reliability with autonomous operation.
Lot of Attention
The hydrogen-powered New Holland T5.140 tractor has garnered a lot of attention at fairs in the area. The tractor operates on a mixture of hydrogen and diesel, with an average of 40-45% hydrogen content. This results in a potential 65% reduction in CO2 emissions compared to using only fossil diesel. The tractor has been functioning without any problems and can still handle a front linkage, making it suitable for various tasks.
Hydrogen is an Expensive Fuel
The price of hydrogen has increased from €14 per kilo to €25 per kilo, which has been a disappointment for the users. They are exploring the possibility of producing hydrogen using their own solar panels, but this would require significant investment and permits. Additionally, a large hydrogen plant is being built in the area, which may change the supply of hydrogen. The users believe that hydrogen is one of the directions for the future, as it can be produced in a CO2-neutral manner.
The Best of Three Worlds
The users of alternative fuel tractors have chosen their respective fuels based on their goals of reducing CO2 emissions and being at the forefront of technology. Each fuel option has its advantages and disadvantages, and the choice depends on factors such as cost, infrastructure, and practicality. The users believe that alternative fuel tractors will play a crucial role in achieving sustainability goals and meeting environmental regulations.
Sustainable Development Goals (SDGs)
- SDG 7: Affordable and Clean Energy – The use of alternative fuels in agricultural tractors contributes to the goal of affordable and clean energy.
- SDG 9: Industry, Innovation, and Infrastructure – The development and adoption of alternative fuel tractors require innovation in the agricultural machinery industry and improvements in infrastructure for charging or refueling.
- SDG 11: Sustainable Cities and Communities – The use of alternative fuel tractors can reduce emissions in urban areas, contributing to sustainable cities and communities.
- SDG 13: Climate Action – Alternative fuel tractors help reduce greenhouse gas emissions and mitigate climate change.
- SDG 15: Life on Land – By reducing emissions, alternative fuel tractors contribute to the preservation of terrestrial ecosystems and biodiversity.
SDGs, Targets, and Indicators
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SDG 7: Affordable and Clean Energy
- Target 7.2: Increase substantially the share of renewable energy in the global energy mix
- Indicator: Proportion of total energy consumption derived from renewable sources
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SDG 9: Industry, Innovation, and Infrastructure
- Target 9.4: Upgrade infrastructure and retrofit industries to make them sustainable
- Indicator: CO2 emissions per unit of value added in manufacturing industries
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SDG 13: Climate Action
- Target 13.2: Integrate climate change measures into national policies, strategies, and planning
- Indicator: Number of countries that have communicated the strengthening of institutional, systemic, and individual capacity-building to implement adaptation, mitigation, and technology transfer
SDGs | Targets | Indicators |
---|---|---|
SDG 7: Affordable and Clean Energy | Target 7.2: Increase substantially the share of renewable energy in the global energy mix | Proportion of total energy consumption derived from renewable sources |
SDG 9: Industry, Innovation, and Infrastructure | Target 9.4: Upgrade infrastructure and retrofit industries to make them sustainable | CO2 emissions per unit of value added in manufacturing industries |
SDG 13: Climate Action | Target 13.2: Integrate climate change measures into national policies, strategies, and planning | Number of countries that have communicated the strengthening of institutional, systemic, and individual capacity-building to implement adaptation, mitigation, and technology transfer |
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Source: futurefarming.com
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