Powerlink FAQ
Frequently Asked Question
Why Choose PowerLink?
PowerLink stands out with over two decades of expertise in research, development, manufacturing, global sales, and service in the field of power energy equipment. We emphasize effective R&D investment management and production efficiency, particularly in diesel power generation. Our extensive experience in engineering applications and service management positions us as a forward-thinking enterprise, committed to delivering exceptional value and returns to our customers and various investment institutions.
What are the main applications of the RHE Series Energy Storage Systems?
The RHE series is ideal for residential homes, SMEs, and small industrial users needing backup power, energy cost savings through peak shifting, and sustainable energy solutions.
What components are integrated inside the RHE units?
Each RHE unit integrates a PCS (power conversion system), battery, BMS (battery management system), MPPT (solar controller), and EMS (energy management system) into one compact solution.
Can the RHE units operate both on-grid and off-grid?
Yes, the RHE systems support both grid-connected and off-grid operation modes for flexible use in different energy scenarios.
What battery technology is used in the RHE Series?
The RHE systems use high-efficiency LiFePO₄ (Lithium Iron Phosphate) batteries, known for their long cycle life, thermal stability, and safety.
Is it possible to expand the battery capacity?
Yes, battery capacity can be expanded based on site needs — please consult sales or your local agent for available expansion options.
PowerLink generator sets cater to a broad spectrum of continuous energy needs. Our smallest unit is 5KVA, ideal for households and small retail properties, and our largest is 3250KVA, capable of powering commercial buildings, hotels, hospitals, mines, factories, and even national power grids. Our generators are suitable for standby and continuous power supply in various sectors.
Our generator sets include a diesel engine, alternator, elastic coupling, main circuit breaker, radiator, various filters (fuel, air, oil), steel chassis, silencer, accumulator, daily fuel tank, oil filling system, silent housing/container body, and a PLC control system.
Our diesel generator sets are designed with advanced technology and a modular design, ensuring superior performance while maintaining cost-effectiveness. At PowerLink, we have an in-depth understanding of the entire equipment system, which includes the engine, generator, and other hardware components, as well as automation control and software, all developed independently by PowerLink.
To calculate the power in kilovolt-amperes (kVA) or kilowatts (KW), multiply the voltage (in volts) by the current (in amperes) for single-phase systems. For three-phase systems, multiply the voltage, current, and the square root of 3 (approximately 1.732). Divide the result by 1000 to convert to kVA or kW as needed.
To measure the power requirement for your load, list all the electrical appliances or systems that will be powered by the generator. Calculate the total wattage by adding the individual wattages of these appliances or systems. This sum gives you an estimate of the power requirement. Ensure to consider both starting and running wattage for accurate assessment.
PowerLink generator sets cater to a broad spectrum of continuous energy needs. Our smallest unit is 5KVA, ideal for households and small retail properties, and our largest is 3250KVA, capable of powering commercial buildings, hotels, hospitals, mines, factories, and even national power grids. Our generators are suitable for standby and continuous power supply in various sectors.
Our generator sets include a diesel engine, alternator, elastic coupling, main circuit breaker, radiator, various filters (fuel, air, oil), steel chassis, silencer, accumulator, daily fuel tank, oil filling system, silent housing/container body, and a PLC control system.
Standard product lead time ranges from 2 to 6 months. We use various carriers for delivery, offering tailored transportation plans based on the project's needs.
A lighting tower is a piece of mobile equipment which consists of one or more high-intensity electric lamps and a mast. Typically used at construction sites, outdoor events, or in mining operations, these towers provide essential lighting over a large area. Most lighting towers are powered by generators and are designed to be easily transportable and adjustable in height to cater to specific lighting needs.
When purchasing a lighting tower, consider the following factors:
Illumination Area and Brightness: Ensure the tower provides adequate light coverage for your specific needs.
Power Source and Efficiency: Check if the tower is powered by a generator or electricity and assess its energy efficiency.
Portability and Setup: Look for a tower that is easy to transport and set up.
Durability and Weather Resistance: Ensure the tower is robust and can withstand the environmental conditions of your operation site.
Maintenance and Operational Costs: Consider the long-term maintenance requirements and operational costs.
Our diesel generator sets are designed with advanced technology and a modular design, ensuring superior performance while maintaining cost-effectiveness. At PowerLink, we have an in-depth understanding of the entire equipment system, which includes the engine, generator, and other hardware components, as well as automation control and software, all developed independently by PowerLink.
To calculate the power in kilovolt-amperes (kVA) or kilowatts (KW), multiply the voltage (in volts) by the current (in amperes) for single-phase systems. For three-phase systems, multiply the voltage, current, and the square root of 3 (approximately 1.732). Divide the result by 1000 to convert to kVA or kW as needed.
To measure the power requirement for your load, list all the electrical appliances or systems that will be powered by the generator. Calculate the total wattage by adding the individual wattages of these appliances or systems. This sum gives you an estimate of the power requirement. Ensure to consider both starting and running wattage for accurate assessment.
The CHE125 offers 125 kW continuous and 150 kW maximum output. The CHE250 provides 250 kW continuous and 300 kW maximum. The CHE500 delivers 500 kW continuous and 600 kW maximum.
All models (CHE125, CHE250, CHE500) support three-phase AC voltages of 380 V, 400 V, and 415 V, ensuring flexibility for various grid requirements.
Each CHE unit integrates a PCS (power conversion system), battery, BMS (battery management system), MPPT (solar controller), and EMS (energy management system) into one compact solution.
Yes, the CHE systems support both grid-connected and off-grid operation modes for flexible use in different energy scenarios.
To measure the power requirement for your load, list all the electrical appliances or systems that will be powered by the generator. Calculate the total wattage by adding the individual wattages of these appliances or systems. This sum gives you an estimate of the power requirement. Ensure to consider both starting and running wattage for accurate assessment.
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