FSE HybridMax
Two forces of nature:
Maximum Power!
FSEs state-of-the-art hybrid system combines wind power and solar energy in one efficient year-round energy solution.
This combined system can generate electricity almost all year round with one system compensating for the other or both running for maximum generating power!
Combined with our high performance inverters and modular battery storage, our HybridMax solutions are a great investment in your long term sustainable energy strategy.
MORE POWER
AND EFFICIENCY!
PV Solar Panels
Wind Turbines
Hybrid System
92%
Hybrid Energy
Wind and solar energy together means more efficiency
87%
Wind Turbines
Wind energy into everyday electrical power
86%
Solar Energy
Solar energy into everyday electrical power.
HYBRID SYSTEM PACKAGES
Let nature pay your bills!
STANDARD
16000€
(incl. VAT + installation + 4G IP-Camera*)
Hybrid system of 5kw
6 solar panels 550w
Hybrid inverter 5,6kw
Wind turbine 2kw
Wind pole 8m
Hybrid controller
Battery 5kw
Bracket
Cables and switch
*Special Spring offer!
Hybrid System in numbers
The anticipated monthly return on investment for surplus energy from the 5kW hybrid system is estimated to range between 20-40€, while the 10kW system can range between 40-60€.
Additionally, it is projected that the 5kW system will recoup its initial investment cost within approximately 8 years and the 10kW system within 12 years.
What is the estimated electricity generation, measured in kilowatt-hours (kWh), for a 5kW and 10kW hybrid system on an hourly, daily, monthly, and yearly basis?
A 5kW/10kW hybrid panel system can generate varying amounts of electricity depending on factors such as sunlight availability, weather conditions, and system efficiency.
Below is an approximate estimate of how much energy a 5kW/10kW hybrid system could generate:
01.
Per Hour
On average, a 5kW hybrid system can generate around 5 kWh (kilowatt-hours) of electricity per hour under ideal conditions, while the 10kW system can generate around 10kWh (kilowatt-hours). However, actual output may vary throughout the day based on sunlight intensity and the wind weather conditions.
02.
Per Day
Over the course of a day, a 5kW hybrid system could generate roughly 35 kWh to 45 kWh of electricity, again depending on factors like sunlight availability and weather. The 10kW hybrid system might generate roughly 70 kWh to 90 kWh of electricity.
03.
Per Month
Assuming 30 days in a month, a 5kW hybrid system might generate approximately 1,050 kWh to 1,350 kWh of electricity in a month. The 10kW hybrid system could produce approximately 2,100 kWh to 2,700 kWh of electricity in a month.
04.
Per Year
Over the span of a year, a 5kW hybrid system could produce roughly 14,000 kWh to 16,800 kWh of electricity, again depending on various factors. The 10kW hybrid system is able to generate roughly 28,000 kWh to 33,600 kWh of electricity per year.
Note: These are rough estimates, and actual energy generation may vary. It's essential to consider factors such as location, orientation of solar panels, shading, and system efficiency when estimating energy production for a solar panel system.
Advanced System in numbers
The anticipated monthly return on investment for surplus energy from the 5kW hybrid system is estimated to range between 20-40€. Additionally, it is projected that the system will recoup its initial investment cost within an approximate period of 8 years.
What is the estimated electricity generation, measured in kilowatt-hours (kWh), for a 5kW hybrid system on an hourly, daily, monthly, and yearly basis?
A 5kW hybrid system of solar panels & wind turbine can generate varying amounts of electricity depending on factors such as sunlight availability, weather conditions, and system efficiency. Here's an approximate estimate of how much energy a 5kW solar system could generate:
01
Per Hour:
On average, a 5kW hybrid system can generate around 5 kWh (kilowatt-hours) of electricity per hour under ideal conditions. However, actual output may vary throughout the day based on sunlight intensity and the wind weather conditions.
03
Per Month:
Assuming 30 days in a month, a 5kW hybrid system might generate approximately 1050 kWh to 1350 kWh of electricity in a month.
02
Per Day:
Over the course of a day, a 5kW hybrid system could generate roughly 35 kWh to 45 kWh of electricity, again depending on factors like sunlight and wind availability.
04
Per Year:
Over the span of a year, a 5kW hybrid system could produce roughly 14,000 kWh to 16,800 kWh of electricity, again depending on various factors.
Note: These are rough estimates, and actual energy generation may vary. It's essential to consider factors such as location, orientation of solar panels and wind energy, and system efficiency when estimating energy production for a hybrid panel system.
Advanced system in numbers
The anticipated monthly return on investment for surplus energy from the 10kW hybrid system is estimated to range between 40-60€. Additionally, it is projected that the system will recoup its initial investment cost within an approximate period of 12 years.
What is the estimated electricity generation, measured in kilowatt-hours (kWh), for a 10kW hybrid system on an hourly, daily, monthly, and yearly basis?
A 10kW hybrid system of solar panels & wind turbine can generate varying amounts of electricity depending on factors such as sunlight availability, weather conditions, and system efficiency. Here's an approximate estimate of how much energy a 10kW solar system could generate:
01
Per Hour:
On average, a 10kW hybrid system can generate around 10 kWh (kilowatt-hours) of electricity per hour under ideal conditions. However, actual output may vary throughout the day based on sunlight intensity and the wind weather conditions.
03
Per Month:
Assuming 30 days in a month, a 10kW hybrid system might generate approximately 2100 kWh to 2700 kWh of electricity in a month.
02
Per Day:
Over the course of a day, a 10kW hybrid system could generate roughly 70 kWh to 90 kWh of electricity, again depending on factors like sunlight and wind availability.
04
Per Year:
Over the span of a year, a 5kW hybrid system could produce roughly 28,000 kWh to 33,600 kWh of electricity, again depending on various factors.
Note: These are rough estimates, and actual energy generation may vary. It's essential to consider factors such as location, orientation of solar panels and wind energy, and system efficiency when estimating energy production for a hybrid panel system.
What can you Power?
A 5kW/10kW hybrid system can generate electricity to power various devices and appliances in a typical household. These devices and appliances can be powered directly by the electricity generated from the hybrid system, provided that the energy demand does not exceed the capacity of the solar system at any given time. Additionally, the energy generated by the hybrid system can also be stored in batteries for later use, allowing for continuous power supply even when the sun and wind are not generated.
Below are some examples of devices that can be powered by a 5kW/10kW hybrid system:
LIGHTS
Lighting fixtures, including LED bulbs, ceiling lights, lamps, etc.
HOME APPLIANCES
Common household appliances such as refrigerators, washing machines, dryers, dishwashers, microwaves, toasters, blenders, etc.
ENTERTAINMENT DEVICES
Televisions, gaming consoles, DVD players, stereos, speakers, etc.
HEATING & COOLING SYSTEMS
Air conditioners, fans, heaters, heat pumps, etc.
COMPUTERS & ELECTRONICS
Desktop computers, laptops, tablets, smartphones, printers, scanners, etc.
KITCHEN APPLIANCES
Electric stoves, ovens, coffee makers, kettles, rice cookers, etc.
HOME OFFICE EQUIPMENT
Printers, scanners, fax machines, routers, modems, etc.
POWER TOOLS
Electric drills, saws, sanders, grinders, etc.
CHARGING STATIONS
Charging stations for electric vehicles (EVs), electric bikes, or other rechargeable devices.
HybridMax Home
An FSE renewable system is a great investment.
Due to its high efficiency, our system will pay itself back easily within its warranty period. With the rising interest in sustainable power, solar & wind systems will increase the value of homeowners and companies in the market.
The system's installation process is divided into two parts:
-
The First system, solar panels, are installed on roofs or other large areas.
-
The second system is the wind turbine. The wind power system is installed on a pole.
Together they are connected to an inverter and a controller. From there the energy is stored in batteries ready for use.
All parts of the system are connected to the grid. The system is connected to generate electricity, thus acting as a single source of energy for the owners. The owners can also sell additional energy to local utility companies, which allows customers to make a profit from the sale of surplus energy.