If you watch this video you calculate how to calculate the sub station very easy. This video is very important for calculation of sub station in Bangla and you also know that substation, substation calculation method and how to calculate substation.
Distribution substations with an installed power of 2×1600 kVA are a typical example of electrical power supply facilities which can be often seen all around Europe and wider. By “calculation” of such a substation, it is assumed that values of all relevant physical quantities shall be determined, and all major equipment inside the substation shall be specified according to these values.
Distribution substations with an installed power of 2×1600 kVA are a typical example of electrical power supply facilities which can be often seen all around Europe and wider. By “calculation” of such a substation, it is assumed that values of all relevant physical quantities shall be determined, and all major equipment inside the substation shall be specified according to these values.
Within this article, will be given.
A basic guide for calculations and dimensioning will be adequate IEC standards and practical engineering experience. Of course, besides electrical, there will be also civil and HVAC (Heating Ventilation and Air Conditioning) requirements for substation which need to be fulfilled, but they are out of the scope of this article.
Distribution substations with an installed power of 2×1600 kVA are a typical example of electrical power supply facilities which can be often seen all around Europe and wider. By “calculation” of such a substation, it is assumed that values of all relevant physical quantities shall be determined, and all major equipment inside the substation shall be specified according to these values.
Within this article, will be given.
A basic guide for calculations and dimensioning will be adequate IEC standards and practical engineering experience. Of course, besides electrical, there will be also civil and HVAC (Heating Ventilation and Air Conditioning) requirements for substation which need to be fulfilled, but they are out of the scope of this article.
When we say that means two power transformers, each of them with rated power of 1600 kVA, will be installed inside the substation.
Strictly speaking, but not necessary, 2×1600 kVA design assumes a substation capable of covering a peak power demand of 2×1600=3200 kVA. That further implies a parallel operation of transformers, i.e. Both transformers will carry the load at the same time.
On the other hand, when we want to emphasize that one transformer will be a working unit, while the other serves as a spare, a . The latter means that the substation will be designed for a peak power demand of 1600 kVA.
Distribution substations with an installed power of 2×1600 kVA are a typical example of electrical power supply facilities which can be often seen all around Europe and wider. By “calculation” of such a substation, it is assumed that values of all relevant physical quantities shall be determined, and all major equipment inside the substation shall be specified according to these values.
Within this article, will be given.
A basic guide for calculations and dimensioning will be adequate IEC standards and practical engineering experience. Of course, besides electrical, there will be also civil and HVAC (Heating Ventilation and Air Conditioning) requirements for substation which need to be fulfilled, but they are out of the scope of this article.
When we say that means two power transformers, each of them with rated power of 1600 kVA, will be installed inside the substation.
Strictly speaking, but not necessary, 2×1600 kVA design assumes a substation capable of covering a peak power demand of 2×1600=3200 kVA. That further implies a parallel operation of transformers, i.e. Both transformers will carry the load at the same time.
On the other hand, when we want to emphasize that one transformer will be a working unit, while the other serves as a spare, a . The latter means that the substation will be designed for a peak power demand of 1600 kVA.
This example will be based on 3200 kVA peak power demand requirement. Besides that, other major input data necessary for calculation and design are:
Single line diagram of distribution substation is given in Figure 1. Substation is supplied from 10 kV distribution network via two cables (typical solution for so called ring type of supply).
Medium voltage switchgear (design tag) supplies power transformers (design tag and ) with voltage transformation ratio of 10/0.4 kV/kV. Power is further distributed to consumers on 0.4 kV voltage level via busbar system (design tag and ) and main low voltage distribution switchboard (design tag).
The number and rating of outgoings, i.e. Circuit breakers, inside +1NE switchboard is determined by predicted or actual number and consumption of consumers supplied this substation.This technical article/guide requires a Premium Membership. You can choose an annually based Plus, Pro, or Enterprise membership plan. Subscribe and enjoy studying specialized technical articles, online video courses, electrical engineering guides, and papers. With EEP’s premium membership, you get additional essence that enhances your knowledge and experience in
If you watch this video you calculate how to calculate the sub station very easy. This video is very important for calculation of sub station in Bangla and you also know that substation, substation calculation method and how to calculate substation.
Distribution substations with an installed power of 2×1600 kVA are a typical example of electrical power supply facilities which can be often seen all around Europe and wider. By “calculation” of such a substation, it is assumed that values of all relevant physical quantities shall be determined, and all major equipment inside the substation shall be specified according to these values.
Distribution substations with an installed power of 2×1600 kVA are a typical example of electrical power supply facilities which can be often seen all around Europe and wider. By “calculation” of such a substation, it is assumed that values of all relevant physical quantities shall be determined, and all major equipment inside the substation shall be specified according to these values.
Within this article, will be given.
A basic guide for calculations and dimensioning will be adequate IEC standards and practical engineering experience. Of course, besides electrical, there will be also civil and HVAC (Heating Ventilation and Air Conditioning) requirements for substation which need to be fulfilled, but they are out of the scope of this article.
Distribution substations with an installed power of 2×1600 kVA are a typical example of electrical power supply facilities which can be often seen all around Europe and wider. By “calculation” of such a substation, it is assumed that values of all relevant physical quantities shall be determined, and all major equipment inside the substation shall be specified according to these values.
Within this article, will be given.
A basic guide for calculations and dimensioning will be adequate IEC standards and practical engineering experience. Of course, besides electrical, there will be also civil and HVAC (Heating Ventilation and Air Conditioning) requirements for substation which need to be fulfilled, but they are out of the scope of this article.
When we say that means two power transformers, each of them with rated power of 1600 kVA, will be installed inside the substation.
Strictly speaking, but not necessary, 2×1600 kVA design assumes a substation capable of covering a peak power demand of 2×1600=3200 kVA. That further implies a parallel operation of transformers, i.e. Both transformers will carry the load at the same time.
On the other hand, when we want to emphasize that one transformer will be a working unit, while the other serves as a spare, a . The latter means that the substation will be designed for a peak power demand of 1600 kVA.
Distribution substations with an installed power of 2×1600 kVA are a typical example of electrical power supply facilities which can be often seen all around Europe and wider. By “calculation” of such a substation, it is assumed that values of all relevant physical quantities shall be determined, and all major equipment inside the substation shall be specified according to these values.
Within this article, will be given.
A basic guide for calculations and dimensioning will be adequate IEC standards and practical engineering experience. Of course, besides electrical, there will be also civil and HVAC (Heating Ventilation and Air Conditioning) requirements for substation which need to be fulfilled, but they are out of the scope of this article.
When we say that means two power transformers, each of them with rated power of 1600 kVA, will be installed inside the substation.
Strictly speaking, but not necessary, 2×1600 kVA design assumes a substation capable of covering a peak power demand of 2×1600=3200 kVA. That further implies a parallel operation of transformers, i.e. Both transformers will carry the load at the same time.
On the other hand, when we want to emphasize that one transformer will be a working unit, while the other serves as a spare, a . The latter means that the substation will be designed for a peak power demand of 1600 kVA.
This example will be based on 3200 kVA peak power demand requirement. Besides that, other major input data necessary for calculation and design are:
Single line diagram of distribution substation is given in Figure 1. Substation is supplied from 10 kV distribution network via two cables (typical solution for so called ring type of supply).
Medium voltage switchgear (design tag) supplies power transformers (design tag and ) with voltage transformation ratio of 10/0.4 kV/kV. Power is further distributed to consumers on 0.4 kV voltage level via busbar system (design tag and ) and main low voltage distribution switchboard (design tag).
The number and rating of outgoings, i.e. Circuit breakers, inside +1NE switchboard is determined by predicted or actual number and consumption of consumers supplied this substation.This technical article/guide requires a Premium Membership. You can choose an annually based Plus, Pro, or Enterprise membership plan. Subscribe and enjoy studying specialized technical articles, online video courses, electrical engineering guides, and papers. With EEP’s premium membership, you get additional essence that enhances your knowledge and experience in
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