Nantong CIMC Yuanneng Integrated Technology Co., Ltd. visited and inspected Shentai New Energy

Nantong CIMC Yuanneng Integrated Technology Co., Ltd

 

Yuanneng Integration is an innovative technology company that focuses on the integration and efficiency improvement of new energy equipment. It is committed to providing high-quality and one-stop integrated solutions to customers worldwide, helping to achieve global carbon neutrality goals and promote sustainable development of human society. Based on the resource advantages of CIMC Group and more than 30 years of experience accumulated by Nantong CIMC, we aim to create a full value chain system integration service system in the field of new energy energy storage and transformation equipment, realizing the full system integration and efficiency improvement of multi unit photovoltaic storage equipment (including energy storage units, transformation units, photovoltaic inverter units, customized module units, etc.). Our products cover multiple categories of energy storage application scenarios such as new energy power generation, grid auxiliary services, microgrids, industrial and commercial parks, and residential households.

 

During the visit, several aspects were visited and discussed:
1. Product display: Observe the physical display of the photovoltaic folding power generation cabin up close, understand its design concept, technical characteristics, application scenarios, and actual operating effects.
2. Technical exchange: In depth discussion on how to achieve energy self-sufficiency, reduce operating costs, and improve operational efficiency in photovoltaic folding power generation cabins.
3. Collaboration exploration: Based on the business areas and resource advantages of both parties, explore potential cooperation opportunities, and jointly promote innovative applications of new energy equipment integration and efficiency improvement, as well as energy supply in various scenarios.

 

Application and advantages of Shentai New Energy’s six major cabins

Unique application scenarios for each cabin
1. Application scenarios of foldable photovoltaic power generation cabin: Foldable power generation cabin has a wide range of applications in various scenarios due to its portability and modularity. For example, it can be quickly deployed in remote areas, emergency relief sites, field operation bases, and other places to provide stable power supply for temporary or mobile facilities. In addition, it can also serve as a power source for leisure activities such as outdoor camping and RV travel. Advantages: Rapid deployment, flexible mobility, efficient power generation, meeting immediate electricity demand.
2. Application scenario of photovoltaic energy storage cabin: The energy storage cabin is mainly used to store the electricity converted from photovoltaics for release when needed. It is suitable for various scenarios such as power grid peak shaving, microgrid systems, and household energy storage. In areas where renewable energy generation is unstable, energy storage tanks can balance the supply and demand of the power grid and improve power supply reliability. Advantages: Balancing power grid supply and demand, improving power supply reliability, and reducing power grid operating costs
3. Application scenarios of smart agriculture planting cabin: The planting cabin adopts soilless cultivation technology and is suitable for urban agriculture, vertical farms, space agriculture and other scenarios. It can achieve efficient plant growth in limited space, meet people’s demand for fresh food, and reduce dependence on traditional agricultural land. Advantages: Save space, increase yield, reduce pests and diseases, and conserve water resources.
4. Application scenarios of prefabricated living quarters: Living quarters provide necessary facilities and services for living or working spaces, such as accommodation, office, entertainment, etc. It is suitable for temporary residences, mobile offices, field workstations, and other scenarios. Advantages: Providing comfortable living and working environments, meeting temporary needs.
5. Application scenarios of photovoltaic cold storage cold chain cabin: Agricultural crops, including fruits and vegetables, fungi, and other agricultural products that require refrigeration or cold chain transportation, as well as products that require storage conditions such as pharmaceuticals, are supplied with photovoltaic energy to provide constant low temperature and maintain product freshness. Advantages: Provides constant low temperature and extends shelf life.
6. Application scenarios of light storage charging and swapping electric car cabins: Light storage charging and swapping electric car cabins can provide fast charging services for electric vehicles, while balancing the power grid load through energy storage systems to reduce the impact on the power grid. This integrated system is particularly suitable for areas with concentrated charging demand such as public parking lots, property communities, and shopping malls. Advantages: Improve system efficiency, energy supply, high efficiency and flexibility, environmental protection and energy conservation.

 

The synergistic effect of the six major compartments
The various compartments of Shentai New Energy can be used independently or centrally managed and coordinated to form an efficient and collaborative energy ecosystem. Specifically manifested as:
Energy complementarity: The electricity generated by the folding power generation compartment can be directly supplied to other compartments for use, or stored in the energy storage compartment for emergency use. During periods of low light or peak electricity usage, the energy storage compartment can release stored electrical energy to meet the power demand within the system. Resource sharing: The crop resources generated by the planting cabin can be used to provide living quarters and improve the comfort of the living environment. At the same time, the living and office cabin can provide an outdoor or stationed environment for operation and maintenance personnel or on-site office construction personnel. Intelligent scheduling: The intelligent control cabin performs intelligent scheduling and optimized configuration based on the real-time status and requirements of each cabin. For example, during periods of low electricity consumption, the folding power generation compartment can be activated for charging, and during periods of high electricity consumption, the energy stored in the energy storage compartment can be released to balance the supply and demand of the power grid and reduce operating costs.
Emergency response: In the event of natural disasters or emergencies, each cabin can be quickly assembled and deployed to form an independent energy ecosystem. The folding power generation compartment provides power support, the energy storage compartment ensures stable power supply, and the living and planting compartments meet living and food needs. The cold chain compartment extends the storage of food and other resources, jointly ensuring people’s life safety and basic living needs. In summary, the various compartments of Shentai New Energy have formed a comprehensive energy ecosystem that integrates power generation, energy storage, planting, living, office, and intelligent control through unique application scenarios and efficient synergies, providing comprehensive solutions for energy supply and living needs in various scenarios.

 

 

Accompanied by the leaders of Shentai New Energy Company, the leaders of Yuanneng Integration closely observed the various processes of the photovoltaic folding power generation container, and gained a detailed understanding of its technical principles, performance parameters, and advantages in practical application scenarios. At the same time, we visited the demonstration base of the planting chamber and demonstrated various aspects of planting on site. The leaders highly praised Shentai New Energy’s unremitting efforts and remarkable achievements in photovoltaic technology innovation, believing that the product has broad application prospects in improving energy utilization efficiency and promoting energy conservation and emission reduction.

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