Market Trends of France DC Motors Industry
The Permanent Magnet DC Motor (PMDC) Segment is Expected to Hold a Significant Share
- The permanent magnet DC motor is similar to an induction motor. It uses the power of electromagnetic theory to produce torque. The motor uses a permanent magnet to generate an electric field that can be used for DC motors. An armature within a DC motor keeps spinning inside an electromagnet field. The principle of the DC motor's essential operation is that every time a carrying conductor is placed in an electrical field, it will be subjected to the physical force experienced by this conductor.
- The PMDC motors are generally smaller than other motor types, but this does not imply that they are less effective. They are ideal for the smallest of uses, like windshield wipers, air conditioning units, and an electric toothbrush. The smaller size, its cost-effectiveness, the absence of field windings, and no copper loss in the circuit are some of the major advantages associated with PMDC motors.
- The market for PMDC motors has been growing steadily over the past few years, driven by an increase in demand for the automation of industrial processes and a rise in the adoption of robotics across different industries. As a result of favorable government initiatives promoting industrial automation and an increasing focus on energy efficiency, the market is expected to continue to grow.
- Due to their small size and muscular power density, PMDC motors are suitable for applications with limited space. As part of the initiative on energy efficiency, France has started to shift toward renewable energies. Integrating PMDC motors into renewables such as wind turbines and solar panels is easy because of their high efficiency. According to a survey conducted by Capgemini, the capacity of the offshore bottom-fixed wind farms under construction in France in 2023 was 2.45 gigawatts, while 3.5 gigawatts were in development that year.
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The Oil and Gas End-user Industry is Expected to Hold a Significant Share
- DC motors shall power the drilling rig's systems and equipment with reliable, constant power. The motor's power supports all activities related to the extraction, processing, storage, and transportation of goods, such as crude oil, petroleum products, or natural gas. The DC motors are specifically designed to provide the energy source for the rig's drawing works and other equipment used in the drilling process. Synchronous generators and induction motors are used to provide power for various applications in drilling operations on land and offshore. Examples of fluid control equipment using DC motors in the oil and gas industry include pumps, fans, and compressors.
- DC motors allow the variable speed to be controlled smoothly and efficiently. Their abilities to optimize energy efficiency and improve process control are particularly useful in applications where speed requirements are regularly changed. These DC motors are well suited for their applications because of their durability and reliability. They can be adapted to harsh operational conditions, such as high temperatures, corrosive environments, or vibrations commonly encountered in the oil and gas industry.
- In addition, the role of self-excited DC motors in the oil and gas industry has been reinforced by their ability to operate as durable workhorses that power critical installations and machinery. In compressors, self-excited DC motors are used to keep the level of pressure constant. These motors help control the flow of oil and gas, ensuring that products are transported efficiently and safely at large distances. They aid in controlling the drive of the control valves that manage pressure, temperature, and flow rates. Maintaining good integrity and safety is helped by the motors' ability to control speed and precisely respond to changes in conditions.
- Furthermore, the demand for natural gas usage is increasing in residential sites. According to CRE, the vast majority of gas consumption sites in France were residential buildings during the first quarter of 2023. Only 6% of the gas supply sites were not residential; however, the natural gas consumption in these sites was approximately three times higher than that consumed by households.
