Great Design Matters
At Advanced Hybrid Solutions Ltd. (AHS), we specialize in innovative hydraulic hybrid technology that offers significant advantages for heavy vehicle fleet operators. Our solution has been designed to enhance fuel efficiency, extend vehicle life, reduce pollution, and deliver a seamless, powerful driving experience.
The Advanced Hybrid Solutions Ltd. hydraulic hybrid system offers unparalleled fuel efficiency, reduced emissions, lower maintenance costs, and a more quiet and efficient operation for heavy vehicle fleets. Whether for short-haul or long-haul applications, our technology is designed to provide both environmental and financial benefits, positioning fleet operators for a more sustainable future.
Our system represents the future of transportation, and we are excited to continue innovating to meet the growing demand for cleaner, more efficient vehicles on the road.
Product Features & Benefits
Our hydraulic hybrid system provides a range of benefits that contribute to lower operational costs, enhanced vehicle performance, and a reduced environmental impact. Below are the core features that set our product apart:
Heavy vehicles fitted with our hydraulic hybrid technology are particularly fuel-efficient in frequent start-stop driving cycles, where energy recovery and hydraulic-powered acceleration replace inefficient diesel engine performance at low speeds. The regenerative braking system captures energy during braking, which can be reused for acceleration. Research has shown that this system increases fuel efficiency by 20% to 40%, depending on the duty cycle and route.
Reduction in Fuel Costs
Extended Vehicle Life
By reducing strain on the diesel engine and transmission, our hybrid system can extend the useful life of heavy vehicles. The continuous recharge of the hydraulic hybrid powertrain means less wear and tear on the core components of the vehicle, ultimately postponing the need for costly replacements and reducing long-term maintenance expenses.
In-house computer modeling has demonstrated that our hydraulic hybrid system can reduce vehicle emissions by up to 40%. By engaging the hybrid system during high-pollution stages, such as acceleration and deceleration, we help minimize the environmental impact of heavy vehicles.
Reduction in Pollution
Designed for Quiet Operation
Our system is available as a retrofit kit, making it compatible with existing vehicles. This means fleet operators can easily integrate the technology without needing to purchase new vehicles. Furthermore, maintenance is simplified—level two diesel mechanics with hydraulic experience can easily perform service and upkeep on the system, ensuring that downtime is minimized.
Our hydraulic hybrid system alleviates the initial shock to the drivetrain components during take-off, as the hydraulic motor takes on the initial load. This not only improves fuel efficiency but also reduces the strain on the transmission, reducing the likelihood of premature wear.
Reduction in Transmission Wear
Designed for Quiet Operation
Our system is designed to operate quietly during acceleration. The hydraulic motor provides most of the acceleration power, allowing the diesel engine to gradually come up to speed with minimal noise. This is especially beneficial for urban areas and locations where noise reduction is a priority. The system’s high torque and low noise characteristics make it a superior solution compared to conventional diesel-only systems.
By activating the hydraulic hybrid system during the most inefficient and polluting stages of a vehicle’s operation, such as initial acceleration, we significantly reduce greenhouse gas emissions. This zero-emission technology provides a direct solution to combating climate change, while also improving air quality.
Reduced Greenhouse Gas Emissions
Improved Vehicle Power
Our system enhances vehicle power, particularly when launching or climbing hills. The high-pressure accumulator releases hydraulic fluid to drive the hydraulic pump/motor, which then propels the truck. This provides powerful acceleration without relying on the diesel engine, which is typically inefficient during these demanding moments.
Our regenerative braking system reduces the need for engine braking, extending the lifespan of the vehicle’s brakes and lowering maintenance requirements. The system automatically adjusts braking force based on the driver’s input and captures energy typically wasted as heat during braking. This energy is stored and used for subsequent acceleration, further improving fuel efficiency.
Regenerative Braking
Efficient Energy Management
Our hydraulic hybrid system captures up to 90% of the energy generated during braking and reuses it to assist in vehicle acceleration. The digital controllers seamlessly blend hydraulic and diesel engine power, delivering a smooth and fuel-efficient driving experience without requiring additional input from the driver. This system ensures that energy is used as efficiently as possible to reduce fuel consumption and greenhouse gas emissions.
Our technology is not just limited to short-haul applications. It is equally effective in long-haul heavy vehicle operations, where it can offer consistent fuel savings and performance improvements, especially on highways and during challenging driving conditions.
Long Haul Vehicle Applications
Hydraulic Hybrid Operation
The hydraulic hybrid system works by using kinetic energy captured during braking to power the vehicle during acceleration. It stores this energy in a high-pressure hydraulic fluid accumulator and releases it to drive the hydraulic motor/pump, which assists the diesel engine during acceleration. This dual-engine system—hydraulic and diesel—works in tandem to provide optimal performance. By using hydraulic energy as a supplementary power source, our system reduces reliance on the diesel engine, improving fuel economy and reducing emissions.