The following basic considerations are fundamental to any power system design:
1- Basic Safety:
The power system must be able to perform all of its basic functions, and withstand basic abnormal conditions, without damage to the system or to personnel.
2- Basic Functionality:
The power system must be able to distribute power from the source to the connected loads in a reliable manner under normal conditions.
3- Reasonable Cost:
The power system cost to obtain basic safety and functionality should be reasonable.
4- Code Compliance:
All applicable codes must be complied with.
Above and beyond the basics are a multitude of considerations, some of which will apply to each particular system design:
1- Enhanced Safety:
The ability to withstand extremely abnormal conditions with a minimum of risk to personnel
2- Enhanced Reliability:
The ability to maintain service continuity during abnormal system conditions
3- Enhanced Maintainability:
The system can be maintained with minimum interruption to service and with minimum personnel protective equipment.
4- Enhanced Flexibility:
The ability to add future loads to the system, and with loads of a different nature than currently exist on the system
5- Enhanced Space Economy:
The power system takes up the smallest possible physical space.
6- Enhanced Simplicity:
The power system is easy to understand and operate.
7- Reduced Cost:
The power system costs, both first cost and operating cost, are low.
8- Enhanced Power Quality:
The power system currents and voltages are sinusoidal, without large amounts of harmonics present. System voltage magnitudes do not change appreciably.
9- Enhanced Transparency:
The power system data at all levels is easily acquired and interpreted, and the power system is easily interfaced with other building systems. Enhanced control of the system is also possible.
for next article we will see that industrial buildings parameters while electrification design and execution.....
HAPPY DASARA TO ALL OF MY FRIENDS...........
1- Basic Safety:
The power system must be able to perform all of its basic functions, and withstand basic abnormal conditions, without damage to the system or to personnel.
2- Basic Functionality:
The power system must be able to distribute power from the source to the connected loads in a reliable manner under normal conditions.
3- Reasonable Cost:
The power system cost to obtain basic safety and functionality should be reasonable.
4- Code Compliance:
All applicable codes must be complied with.
Above and beyond the basics are a multitude of considerations, some of which will apply to each particular system design:
1- Enhanced Safety:
The ability to withstand extremely abnormal conditions with a minimum of risk to personnel
2- Enhanced Reliability:
The ability to maintain service continuity during abnormal system conditions
3- Enhanced Maintainability:
The system can be maintained with minimum interruption to service and with minimum personnel protective equipment.
4- Enhanced Flexibility:
The ability to add future loads to the system, and with loads of a different nature than currently exist on the system
5- Enhanced Space Economy:
The power system takes up the smallest possible physical space.
6- Enhanced Simplicity:
The power system is easy to understand and operate.
7- Reduced Cost:
The power system costs, both first cost and operating cost, are low.
8- Enhanced Power Quality:
The power system currents and voltages are sinusoidal, without large amounts of harmonics present. System voltage magnitudes do not change appreciably.
9- Enhanced Transparency:
The power system data at all levels is easily acquired and interpreted, and the power system is easily interfaced with other building systems. Enhanced control of the system is also possible.
for next article we will see that industrial buildings parameters while electrification design and execution.....
HAPPY DASARA TO ALL OF MY FRIENDS...........
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