AEAUTO Engineering Machinery-Powertrain System Solutions
With economic development, construction machinery has become more prominent and widely used in fields such as construction, Still, it will cause environmental pollution during operation, mainly including harmful emissions and energy crisis.
To effectively solve ecological problems, environmental protection policies and regulations are introduced worldwide to promote its transformation to electrification. Construction machinery must not only meet the requirements of efficient construction but also pay attention to environmental protection and fulfill social responsibilities. This article will analyze the advantages, applications, and efforts of the AEAUTO powertrain system in sustainable development.
Powertrain system Features
The core of the "oil-to-electricity" solution for construction machinery Powertrain system is to convert the traditional diesel engine drive mode into an AC motor drive mode, thereby achieving high efficiency and environmental protection in the operation of construction machinery.
This plan involves changing the diesel engine parallel drive to the AC motor parallel drive, and by using multiple high-voltage motors and step-less speed-adjustable hydraulic coupling reducers, the size and weight of the engineering machinery are miniaturized, making The operation smoother, the vibration is greatly reduced, the noise is significantly reduced, and exhaust gas pollution is successfully avoided.
Engineering machinery powertrain system applications
At present, the construction machinery market is on the rise, with inventory updates and new demand running parallel. Traditional construction machinery OEMs are actively deploying in the field of new energy construction machinery, and the subcategories of closed and fixed working environment application scenarios have taken the lead in realizing electrification.
Engineering machinery has a wide range of application scenarios, such as vehicles, loaders, excavators, and other industries. Converting diesel engine drive to AC motor drive provides high-quality and efficient electric drive system solutions for engineering machinery.
New opportunities under the development of new energy engineering machinery
According to official reports, the global share of new energy products in construction machinery is expected to reach 11% in 2025, and 15% in China; by 2030, the global share will reach 29%, and the domestic share will reach 40%. At present, the leading construction machinery companies around the world have made full efforts to deeply deploy electrified equipment. On the one hand, they actively carry out self-developed technology, and on the other hand, they are also vigorously carrying out in-depth cooperative development, and continuously launching various types of electrified construction machinery products.
Relevant industries such as vehicle manufacturers, OEM, and construction manufacturers should strengthen cooperation, jointly commit to research development and innovation, and strive to improve the overall performance and user experience of electric vehicles, so as to better adapt to market development needs and promote the rapid progress of the construction machinery industry in the field of electrification.
Policies promote the electrification of construction machinery
In the process of promoting the electrification of construction machinery, in terms of implementation strategies, some countries have increased their support and policy preferences for powertrain system projects. They have proposed corresponding financial subsidy policies to encourage enterprises and manufacturers to convert to electricity. They have made every effort to promote the electrification of construction machinery and accelerate the transformation of the construction machinery industry to new energy.
In addition, with the acceleration of new infrastructure construction and the popularization of charging and battery replacement facilities, batteries, motors, electronic controls, and charging and battery replacement have basically matured, solving the pain points encountered in the use of electrification of construction machinery. Major battery manufacturers have launched battery products and full-cycle services for construction machinery. A series of promotions have accelerated the development of new energy products in the field of construction machinery.
The economic benefits of the powertrain system are obvious
1. Improve resource utilization efficiency
improve work and resource utilization efficiency by adopting advanced energy technology and optimized design.
2.Reduce environmental pollution
Use clean energy, reduce fossil fuel use and pollutant emissions, and help achieve carbon neutrality goals.
3. Reduce operating costs
Advances in lithium battery technology have reduced battery costs, and new energy engineering machinery has low maintenance costs, increasing user benefits.
4. Stay flexible
It has the advantages of high efficiency and reliability, low fuel consumption, and environmental protection.
AEAUTO Powertrain System Solutions
In the application of AEAUTO powertrain system technology, taking excavators as an example, replacing a diesel engine with an electric motor with a range extender or a pure electric engine can significantly save fuel consumption. A 20-ton excavator can save more than 60% of fuel consumption a day, and the daily electricity bill may not exceed 70$.
In addition, the technical solution for converting oil to electricity for loaders is to replace components such as the engine and fuel system with electric components such as electric motors and battery packs to realize the electrification of loaders. The battery packs are used to store and release electrical energy to meet the power requirements of the loaders.
AEAUTO is committed to providing customers with more efficient and environmentally friendly engineering machinery solutions. It can not only extend the life of engineering machinery and reduce waste but also create more value and benefits for end users. From the actual effect, it can also speed up the improvement of energy consumption, emissions, and technical standards.
