Island hotel/Commercial B-HUB CABINET

Switch to clean energy from diesel Gen

with BUGET way

The true barrier to energy modernization is no longer technical feasibility or willingness to invest, but the prohibitive upfront cost of traditional system upgrades.

We address this challenge with our new Diesel-PV Hybrid BESS, specifically engineered to maximize efficiency with minimal battery capacity. The system delivers impact through three core innovations:

Seamless Generator Integration - Our proprietary controller enables millisecond-level synchronization with diesel generators, using battery power to smooth load fluctuations
Intelligent Optimization - Advanced algorithms predict energy patterns to minimize generator runtime, reducing diesel consumption by 40-60%
Complete PV Utilization - Ensures 100% consumption of solar generation, eliminating curtailment regardless of installation constraints

This approach achieves what traditional solutions cannot:

▸ 60% lower initial investment vs conventional solar-storage systems
▸ 50%+ reduction in diesel fuel costs
▸ 100% utilization of solar generation
▸ Fully automated energy management

We are redefining the economics of clean energy transition—where sustainability becomes financially viable from day one, without capital intensive upgrades.

The LVFU Island B-Hub Cabinet

To better meet the complex multi-energy integration needs of palm oil mills, LVFU has launched the new-generation Island B-Hub Cabinet.

Traditional BESS solutions are typically designed for grid or photovoltaic connections, proving inadequate for efficiently integrating volatile power sources like diesel generators—let alone adapting to the unique steam turbines used in palm oil mills. Historically, achieving such integration relied on high-cost custom projects.

Our B-Hub Cabinet fundamentally changes this landscape. Capable of seamless switching among diverse power sources—including diesel generators, PV systems, the grid, BESS, steam turbines, and even wind power—within 20 milliseconds, it allows users to flexibly configure switching strategies via an intelligent energy management platform. This ensures the most economical energy mix is always utilized, significantly reducing customers' overall electricity costs.

The Design of cabinet depends on request of project need

Anti-Black out

Automatic energy switch

To meet the integrated energy management needs of remote island resorts, we have launched the new Island B-Hub Cabinet intelligent energy storage system. This system overcomes the limitations of traditional manual and semi-automatic power switching by using battery storage as the core, enabling centralized control and intelligent dispatch of all energy sources across the property.

In traditional remote hotels, power source switching relies on manual operations, There is risk of black out, resulting in inefficiency and slow response times. Our Multi-energy BESS Cabinet integrates advanced control and monitoring systems to establish a unified energy management platform, achieving fully automated switching and strategic management between diesel generators, photovoltaic systems, and the main grid(If is exist).

Hotel management can use the LVFU Cloud platform to monitor real-time energy consumption and flexibly configure power dispatch strategies. The system seamlessly coordinates all energy assets into an optimized operational whole, significantly improving energy utilization efficiency. Through intelligent scheduling and automated operation, the resort's energy costs will be significantly reduced, while ensuring uninterrupted power supply for guest comfort and operational needs.

SAVE THE ENERGY BILL BY BESS

Use case

Island

Global map surveys indicate there are approximately 100,000 islands worldwide, making island power supply a critical application area for renewable energy microgrids. By deploying photovoltaic (PV) systems, wind power generation, and energy storage solutions, these islands can access continuous, zero-emission electricity. For islands with existing diesel generators, hybrid microgrids can significantly reduce fossil fuel consumption, enhance economic efficiency, and mitigate environmental pollution and carbon emissions.

Most mines and oilfields are located in remote areas without grid access, yet demand substantial power loads. Traditional solutions—whether grid extension or heavy oil/diesel generators—incur high costs and offer unreliable supply. Solar microgrids present a cost-effective alternative that dramatically improves power reliability while slashing operational expenses.

Use case

Mining & Oilfield Operations

Use case

Remote Village

In regions where grid expansion is impractical or prohibitively expensive, standalone microgrids provide an ideal solution. When grid infrastructure later becomes available, these systems can either continue operating autonomously or seamlessly integrate with the main grid. Zhongteng Microgrid’s Energy Management System (EMS) control logic enables effortless switching between these two modes.