Electric motorization 

Conversion kits with the company EVEA, for the construction of electric vehicles and machines, standard, non-specific applications.

Electrical conversion is a process by which electrical energy is transformed into a different form of energy, or vice versa. This electrical conversion is used in many generic applications and industrial sectors to meet various energy needs. Here are some of the generic applications of electrical conversion:

Electric power generation: Power plants, whether thermal, nuclear, hydro, wind or solar, use electrical conversion to transform other forms of energy into electricity.

Power Distribution: The power grid carries electricity over long distances, and transformers are used to change the electrical voltage to minimize line losses.

Energy storage: Batteries and accumulators convert electricity into chemical energy for temporary storage.

Electric transportation: Electric vehicles use batteries to store electrical energy which is then converted into movement by electric motors.

Lighting: Light bulbs convert electricity into visible light.

Electric heating: Electric resistances convert electricity into heat for heating homes and buildings.

Consumer electronics: Devices such as televisions, computers, smartphones, etc., use electronic circuits to convert electricity into specific functions such as display, data processing, etc.

Home Appliances: Home appliances such as washing machines, refrigerators, microwave ovens, etc., also use electrical conversion to perform their tasks.

Conversion kits with the company EVEA, for the construction of electric vehicles and machines, standard, non-specific applications. Electrical conversion is a process by which electrical energy is transformed into a different form of energy, or vice versa. This electrical conversion is used in many generic applications and industrial sectors to meet various energy needs. Here are some of the generic applications of electrical conversion: Electric power generation: Power plants, whether thermal, nuclear, hydro, wind or solar, use electrical conversion to transform other forms of energy into electricity. Power Distribution: The power grid carries electricity over long distances, and transformers are used to change the electrical voltage to minimize line losses. Energy storage: Batteries and accumulators convert electricity into chemical energy for temporary storage. Electric transportation: Electric vehicles use batteries to store electrical energy which is then converted into movement by electric motors. Lighting: Light bulbs convert electricity into visible light. Electric heating: Electric resistances convert electricity into heat for heating homes and buildings. Consumer electronics: Devices such as televisions, computers, smartphones, etc., use electronic circuits to convert electricity into specific functions such as display, data processing, etc. Home Appliances: Home appliances such as washing machines, refrigerators, microwave ovens, etc., also use electrical conversion to perform their tasks.

Conversion kits for the construction of electric vehicles and machines, standard, non-specific application. These conversion kits are suitable for many applications. Please contact us for more details.

Industry: In industry, electrical conversion is used in a wide range of applications, from manufacturing to welding to machine control.

Renewable energy: Solar photovoltaic and wind systems convert solar and wind energy into electricity.

Medical Equipment: Medical equipment such as MRIs, X-ray machines, pacemakers, etc., use electrical conversion for various medical functions.

Telecommunications: Telecommunications networks rely on electrical conversion to transmit electrical signals in the form of voice or digital data.

Aerospace: In the aerospace industry, electrical conversion is used to power navigation systems, communications equipment, etc.

Rail transport: Electric trains use electric motors powered by catenaries or third rails.

Military equipment: Weapon systems, military vehicles, and communications equipment also use electrical conversion for various functions.

In summary, electrical conversion is ubiquitous in our modern society and plays a vital role in a wide variety of applications, helping to meet our energy, comfort and technology needs.

Industry: In industry, electrical conversion is used in a wide range of applications, from manufacturing to welding to machine control.

Renewable energy: Solar photovoltaic and wind systems convert solar and wind energy into electricity.

Medical Equipment: Medical equipment such as MRIs, X-ray machines, pacemakers, etc., use electrical conversion for various medical functions.

Telecommunications: Telecommunications networks rely on electrical conversion to transmit electrical signals in the form of voice or digital data.

Aerospace: In the aerospace industry, electrical conversion is used to power navigation systems, communications equipment, etc.

Rail transport: Electric trains use electric motors powered by catenaries or third rails.

Military equipment: Weapon systems, military vehicles, and communications equipment also use electrical conversion for various functions.

In summary, electrical conversion is ubiquitous in our modern society and plays a vital role in a wide variety of applications, helping to meet our energy, comfort and technology needs.

With the EVEA company, the electric conversion of a two-wheeled application, such as a motorcycle or bicycle, generally involves replacing the combustion engine with an electric motor and installing a battery to store the electrical energy. Here are the general steps to follow to perform an electric conversion on a two-wheel application:

Select base vehicle: Choose the vehicle you want to convert to electric. Make sure the chassis and structure of the vehicle are suitable for the conversion.

Power Required Assessment: Determine the electrical power needed for your application. This will depend on the size and weight of the vehicle, as well as the desired speed and range. In general, electric motors for two-wheelers have a power of 1 to 15 kW or more.

Choose an electric motor: Select an electric motor of the appropriate size and power for your application. Brushless motors are commonly used for electrical conversions due to their efficiency and durability.

Battery: Select a battery suitable for your application. Lithium-ion batteries are most commonly used for electrical conversions due to their high power-to-weight ratio and long lifespan. Make sure the battery capacity is sufficient to meet your battery life needs.

Controller: Choose an electronic controller that is suitable for the motor you have selected. The controller regulates the power delivered to the motor based on acceleration, speed, etc.

Battery Management System (BMS): Install a BMS to monitor and balance the battery cells, which will extend battery life.

Cooling System: A cooling system may be necessary to prevent the battery and motor from overheating.

Installation: Install the electric motor, battery, controller and all electrical components into the vehicle. This may require modifications to the chassis or frame.

Wiring: Perform electrical wiring to connect all components safely and functionally.

Testing and adjustments: Test the system to ensure it is working properly. You may need to adjust controller settings to achieve the desired performance.

Approval: Depending on your location and local laws, you may need to homologate the electric conversion for it to be road legal.

Maintenance: Be sure to follow the recommended maintenance procedures for the electric motor, battery and other components.

It is important to note that electrical conversion of a two-wheeled application can be a complex project and requires electrical, mechanical and welding skills. Additionally, be sure to follow all local electric vehicle regulations.

With EVEA, the electric conversion of a four-wheel application, such as a car, light truck or all-terrain vehicle (ATV), also involves replacing the combustion engine with an electric motor and installing a battery. Here are the general steps for performing an electric conversion on a four-wheel application:

Choice of vehicle: Select the vehicle you want to convert to electric. Make sure the vehicle chassis and structure are suitable for electric conversion.

Calculation of the required power: Determine the electrical power required for your application. This will depend on the weight of the vehicle, the desired speed and the range. Electric motors for four-wheeled vehicles can range from 20 kW to several hundred kW.

Electric motor selection: Select an electric motor of the appropriate size and power for your application. Induction motors and synchronous motors are often used for vehicle conversions.

Battery: Choose a battery that suits your application. Lithium-ion batteries are commonly used for vehicle conversions due to their high energy density. The battery capacity must be sufficient to meet your autonomy needs.

Controller: Select an electronic controller that matches your chosen motor. The controller regulates the power delivered to the motor based on acceleration, speed, etc.

Battery Management System (BMS): Install a BMS to monitor and balance the battery cells, which will extend battery life.

Cooling system: A cooling system may be necessary to prevent overheating of the battery and motor.

Installation: Install the electric motor, battery, controller and all electrical components into the vehicle. This may require modifications to the chassis or frame.

Wiring: Perform electrical wiring to connect all components safely and functionally.

Testing and adjustments: Test the system to ensure it is working properly. You may need to adjust controller settings to achieve the desired performance.

Approval: Make sure you comply with all local electric vehicle regulations. You may need to homologate the conversion for it to be road legal.

Maintenance: Follow recommended maintenance procedures for the electric motor, battery and other components.

The electric conversion of a four-wheel vehicle is a complex project that requires mechanical, electrical and electronic skills. It is also important to consider local regulations, as the conversion could affect the vehicle's compliance with road safety standards. Consider hiring experienced professionals if you don't have the skills to complete the electrical conversion yourself.

With the company EVEA, the electric conversion of a boat involves the transformation of an internal combustion engine into an electric propulsion system. Here are the general steps to follow when performing an electrical conversion on a boat application:

Select boat: Choose the boat you want to convert to electric. Make sure the boat is suitable for electric conversion in terms of weight, size and structure.

Assessing Power Needed: Determine the electrical power needed for your boat based on factors such as boat size, desired speed, payload and range. You will also need to take into account the navigation conditions specific to your region.

Choose a marine electric motor: Select a marine electric motor of the appropriate size and power for your application. Marine electric motors are designed to withstand corrosive marine environments.

Battery: Choose a marine battery suited to your boat. Lithium-ion batteries are often used for boat conversions due to their high power-to-weight ratio and long lifespan. Make sure the battery capacity meets your battery life needs.

Controller: Select a marine electric motor controller that is suitable for your chosen engine. The controller will regulate the power delivered to the engine according to propulsion needs.

Battery Management System (BMS): Install a BMS to monitor and balance the battery cells, which will extend battery life.

Cooling system: Provide a cooling system to keep motor and battery temperatures at safe levels, as heat can be a problem during continuous use.

Installation: Install the electric motor, battery, controller and electrical components into the boat. This may require structural modifications to accommodate the new propulsion system.

Wiring: Perform electrical wiring to connect all components securely and functionally. Make sure the wiring is waterproof and water resistant.

Testing and adjustments: Test the system to ensure it is working properly. You may need to adjust controller settings to achieve the desired performance.

Approval: Be sure to comply with all local and national regulations regarding marine navigation and electric boat conversions.

Maintenance: Follow recommended maintenance procedures for the electric motor, battery and other components. Be sure to monitor the battery status regularly.

Electrically converting a boat can be a complex project that requires skills in marine mechanics, electricity and electronics. Additionally, it is essential to comply with local and national maritime regulations to ensure the safety and compliance of your electric boat. Also consider hiring experienced professionals to help you with this project.

With the EVEA Company, the electrical conversion of an industrial application can vary considerably depending on the nature of the application. However, here are the general steps you can follow to perform an electrical conversion on an industrial application:

Needs Analysis: Understand the specific needs of your industrial application, including power, automation, control and energy efficiency requirements.

Selection of electrical equipment: Choose the necessary electric motor, control system, electrical and electronic components according to your needs. Make sure the equipment is suitable for the specific industrial application.

Battery (if necessary): If your application requires a mobile power source, such as a battery, choose an appropriate battery based on the required capacity and operating time.

Electrical System Design: Design an electrical system that integrates new electrical equipment efficiently and safely into your industrial application. This may require the design of electrical circuits, control panels, wiring and control panels.

Equipment Installation: Install the electric motor, control system, electrical and electronic components, and any batteries or power sources needed in your industrial application.

Wiring and integration: Perform electrical wiring to connect all components safely and functionally. Integrate the electrical system with the rest of the industrial application.

Programming and configuration: If your application requires specific automation or control, program and configure control systems according to your needs.

Testing and Commissioning: Test the electrical system to ensure it is operating properly. Perform performance tests to verify that the industrial application meets your requirements.

Personnel training: Ensure that personnel responsible for operating and maintaining the industrial application are trained in the new electrical configuration.

Safety and Compliance: Ensure the electrical system meets all applicable industrial safety standards and regulations. Obtain necessary certifications if they are required.

Maintenance and monitoring: Establish a regular maintenance plan for the electrical system and monitor its operation for any potential problems.

Optimizing energy efficiency (if applicable): If energy efficiency is a goal, monitor and adjust the system to minimize energy consumption and maximize component life.

Electrical conversion for industrial applications can be complex due to the variety of applications and specific needs. It is recommended to work with electrical engineering experts and engineers specializing in industrial applications to ensure a successful conversion. Also, make sure you follow the regulations and industrial safety standards applicable to your field.