In the past, industrial PCs were perceived as loud when put under stress. This was due to fans which grew louder with increased computer speed, environmental heat and processing requirements. Removing these constantly moving components from industrial PCs has developed fanless computers and made industrial touchscreen PCs quiet.
Fanless industrial PCs have many benefits due to their quiet operation and these are the top 20 reasons to use fanless industrial PCs for industrial tasks:
1. Low power consumption.
Fanless computers are energy efficient. They require less energy as compared to fan based computers. As the processors in this machines generate less heat, they are able to handle heavy applications at ultra-low power consumption rates. This highly cuts down power costs.
2. High processor performance.
Fanless builds allow for use of powerful processor chips. These processors will easily handle industrial applications while guaranteeing high performance. With fanless computers, you can easily configure the machine to suit specific industrial applications. This reduces flaws that may be associated with fan-based computers.
3. Cool computing temperatures.
Fans draw away excessive heat in computers. Fanless ones generate minimal heat. This means that a huge number of computers can be operated in a space without requiring air conditioning. This is vital in closed environments as well as eco-friendly.
4. Improved shock resistance.
Replacing a fan leads to reduced computer stability. When this component is done away with, a PCs shock resistance is improved. This renders the machine fit for industrial application.
5. High durability.
Mechanical fan failure leads to reduced performance and ultimately total failure of a computer. One of the major reasons to use a fanless machine is due to its increased durability thanks to reduced mechanical parts. Fanless PCs do not accumulate dust or get damaged from sudden shock. This improves their durability.
6. Noise-free operation.
Some tasks require quiet computers. It is therefore ideal to use these machines in intensive care units, sound recording studios and operation rooms. Their quiet operations ensure that humming of fans does not interrupt patients or music recording.
7. Ergonomic designs.
Fans require a lot of space in a computer system for it to function properly. Fanless PCs utilize this space to the maximum. This creates functional yet ergonomic computers that fit all the components nicely in a sleek enclosed chassis.
8. Improved mobility.
Unique compact design and low power consumption ensure that you can run these computers from any location. Their designs ensure that they are easy to carry around when need arises. This is essential especially in medical practice where computers are not necessarily stationary.
9. Compact and sealed design.
These machines do not require a lot of dead space as all the components fit perfectly in compacted spaces. Without the need to leave space for air circulation for cooling, these computers can be fitted in very small rooms. This is critical in saving space while maintaining production capacities.
10. Improved reliability.
Removal of fans reduces costly maintenance to PCs when the fans get damaged. Moreover, this means that fanless machines will run smoothly for longer periods. It makes these machines easy to handle thus reliable.
11. Improved safety in sterile conditions.
The absence of a fan in a PC does not encourage dust accumulation or spread of pathogens through air circulation. This condition makes fanless industrial PCs essential in sterile environments. When cased in antimicrobial cases, they are perfect for intensive care units, food processing, and the pharmaceutical industries.
12. Reduced moving parts.
Sudden vibration is the leading cause of computer parts malfunction. With zero moving parts, industrial computers can hardly be affected by vibrations. This ensures high performance and reduced maintenance costs.
13. Wide location usage.
Some locations are unsuitable for fan-based computers. Dusty outdoor spaces or highly humid areas are just a few. Fanless computers will function efficiently in these environments thus preference.
14. Zero external debris.
Open air circulation spaces in computers attract dust and moisture which undermine a computer’s health. This is propagated by the blowing fan. Fanless industrial computers do not accumulate external debris thus fewer chances of failure.
15. Reduced maintenance schedules.
Internal cleaning and parts replacement is a thing of the past when using these machines. Whereas fan based machines require occasional cleaning and dirt removal for improved airflow, fanless builds do not. This saves a lot in time and cost and improves reliability in production schedules.
16. Easy to assemble and set up.
Assembling a computer can be hectic especially ones with moving parts. This is avoidable when assembling fanless PCs. These builds are also easy to set up as air circulation is not considered. Blocking airways is therefore not a problem.
17. Increased production.
With zero downtime, there is increased production especially in pharmaceutical industries and hospital operating rooms. This is critical in saving lives as well as smooth stress-free computer functionality.
18. Improved functionality.
Removing fans and other moving parts creates space for additional features. This means you get an increased number of ports in your PC. This is essential in performing a wide array of tasks.
19. Reduced weight.
Fan based computers require heavy batteries to support its cooling system. Removing the fan reduces power consumption and thus a smaller battery can be fitted in the computer. This greatly reduces the weight of the computers.
20. Improved battery life.
Classical computers draw more power than fanless ones. In situations where the power supply is not reliable and batteries used, fanless builds are preferred. These have longer battery life thus completion of tasks comfortably.
The above reasons make fanless computers preferred in industrial operations. In most cases, an industrial PC without a fan is a great choice for both industrial-based tasks and commercial purposes.