MK Magnetics, Inc. specializes in high-performance magnetic core products primarily used in electrical, electromechanical, and magnetic devices. Some of these devices are incorporated in numerous renewable energy applications, and using quality magnetic cores can improve their efficiency.
Knowing more about its various roles can help our customers in the renewable energy industry make informed decisions. For example, developing innovative renewable energy systems with magnetic cores as one of their main components.
Magnetic Cores for Renewable Energy Applications
As the demand for renewable energy technology increases, so does the need for reliable magnetic components that can function efficiently while withstanding various temperatures and operating conditions. Fortunately, we invested heavily in research and development to provide our clients with optimal magnetic cores to support these challenges.
Renewable energy generation is harvested using a broad range of devices, whether electrical, electromechanical, or magnetic equipment.
Some examples of devices used in renewable energy harvesting:
- Any magnetically polarized materials
For instance, magnetic cores are mainly found in transformers. These are made with conductive materials like amorphous metal, nanocrystalline, silicon steel, or iron. Therefore, a suitable material can improve the effectiveness of a system and make a difference in its overall capabilities.
Other Materials Suitable for the Renewable Energy Sector
Determining the available materials is necessary when choosing magnetic cores for renewable energy applications. At MK Magnetics, Inc, we provide a wide range of options that will best suit our customers’ needs.
Here are some of the materials used in magnetic cores for renewable energy:
- Amorphous materials
- Nickel alloys
- Silicon steel
- Cobalt alloys
Amorphous Materials, Nanocrystalline & Silicon Steel for Magnetic Cores
Among the materials in the list, nanocrystalline, amorphous materials, and silicon steel are considered to be some of the most effective for renewable energy systems. These materials have various benefits that ensure efficiency among different renewable energy systems. Get to know more about them below:
A magnetic core made with amorphous material can provide the following advantages:
- Reducing hysteresis loss
- Higher permeability
- Low coercive force and remanence
Hysteresis refers to the lag in the response of a material to changes in the magnetic field. Therefore, a high hysteresis loss means the system’s effectiveness is compromised. Meanwhile, high permeability refers to its conductive properties, which help in overall energy efficiency.
Silicon steel exhibits comparable benefits to amorphous materials. It can also decrease hysteresis losses and increase permeability and resistivity. However, amorphous materials are usually preferred between the two due to their lower coercive force and remanence.
Finally, the newest and next generational material is nanocrystalline. These are also gaining traction in the renewable energy sector due to having better magnetic properties compared to amorphous and silicon steel materials. The benefits include:
- High magnetic induction
- Low power loss
- Enhanced magnetic properties
- Superior permeability
With these in mind, using a nanocrystalline core for various renewable energy systems and equipment will ensure better performance. Today, you will find that a nanocrystalline core is being used in inductors, inverters, transformers, and other systems where magnetic energy conversion is required.
Always Choose Superior Magnetic Cores for Renewable Energy
At MK Magnetics, Inc, you can find magnetic core products with promising characteristics proven to be beneficial in renewable energy applications. These will ensure a higher productivity rate and better capabilities for your system.
We have the necessary resources to provide you with a variety of options that will drive success to your renewable energy projects. If you want to know more, please feel free to contact us today. Request information, and one of our experts will reach out to you shortly.