Construction of a solar power plant with a capacity of 44.1 MW

Разработка проектно-сметной документации для нового строительства и реконструкции действующих энергетических объектов и гражданского строительства

Construction of a solar power plant with a capacity of 44.1 MW

44,1 MW

Location of the facility: Russian Federation, Krasnodar Territory, Seversky District, within the boundaries of the Niva agricultural complex.

Customer: Joint Stock Company "SSE Engineering".

Design stages:

  • basic design
  • detailed design

 

 

 

Technical and economic indicators of the project

The name of indicators

Units

Value, indicator

Solar power plant-1Kr:   power - 4 902,39 kw

 

 

1. The area occupied by the solar power plant

m2

110741

2. Number of PV modules supplied

PC.

14634

3. Installed capacity of PV modules

kw

4 902,39

4. Electricity generation in the first year

MWh

6216,2

5. Performance Ratio

%

83,1

6. Installed capacity utilization factor

%

14,42

Solar power plant-2Kr:   power - 4 900,5 кВт

 

 

1. The area occupied by the solar power plant

m2

109776

2. Number of PV modules supplied

PC.

14850

3. Installed capacity of PV modules

kw

4 900,5

4. Electricity generation in the first year

MWh

6175,3

5. Performance Ratio

%

82,6

6. Installed capacity utilization factor

%

14,34

Solar power plant-3Kr:   power - 4 900,5 кВт

 

 

1. The area occupied by the solar power plant

m2

106316

2. Number of PV modules supplied

PC.

14850

3. Installed capacity of PV modules

kw

4 900,5

4. Electricity generation in the first year

MWh

6066,3

5. Performance Ratio

%

81,1

6. Installed capacity utilization factor

%

14,08

Solar power plant-4Kr:   power - 4 910,49 кВт

 

 

1. The area occupied by the solar power plant

m2

108340

2. Number of PV modules supplied

PC.

15228

3. Installed capacity of PV modules

kw

4 910,49

4. Electricity generation in the first year

MWh

6027,6

5. Performance Ratio

%

80,7

6. Installed capacity utilization factor

%

14,01

Solar power plant-5Kr:   power - 4 900,5 кВт

 

 

1. The area occupied by the solar power plant

m2

115366

2. Number of PV modules supplied

PC.

14850

3. Installed capacity of PV modules

kw

4 900,5

4. Electricity generation in the first year

MWh

6080,4

5. Performance Ratio

%

81,3

6. Installed capacity utilization factor

%

14,11

Solar power plant-6Kr:   power - 4 900,5 кВт

 

 

1. The area occupied by the solar power plant

m2

126988

2. Number of PV modules supplied

PC.

14850

3. Installed capacity of PV modules

kw

4 900,5

4. Electricity generation in the first year

MWh

6073,3

5. Performance Ratio

%

81,2

6. Installed capacity utilization factor

%

14,1

Solar power plant-7Kr:   power - 4 900,5 кВт

 

 

1. The area occupied by the solar power plant

m2

129200

2. Number of PV modules supplied

PC.

14850

3. Installed capacity of PV modules

kw

4 900,5

4. Electricity generation in the first year

MWh

6129,8

5. Performance Ratio

%

81,9

6. Installed capacity utilization factor

%

14,22

Solar power plant-8Kr:   power - 4 900,5 кВт

 

 

1. The area occupied by the solar power plant

m2

110700

2. Number of PV modules supplied

PC.

14850

3. Installed capacity of PV modules

kw

4 900,5

4. Electricity generation in the first year

MWh

6080,4

5. Performance Ratio

%

81,3

6. Installed capacity utilization factor

%

14,11

Solar power plant-9Kr:   power - 4 902,39 кВт

 

 

1. The area occupied by the solar power plant

m2

88441

2. Number of PV modules supplied

PC.

14634

3. Installed capacity of PV modules

kw

4 902,39

4. Electricity generation in the first year

MWh

6079,1

5. Performance Ratio

%

81,3

6. Installed capacity utilization factor

%

14,1

 

PV modules installation angle - 30 °.

The PV modules step is 12 meters.

Summary of key solutions

The purpose of the construction of objects Solar power plant-1Kr - Solar power plant-9Kr (hereinafter referred to as SPP) is the use of renewable energy resources (sunlight), converted with the help of modern technical devices - photovoltaic modules (PV modules) - into electrical energy.

The projected SPP has an installed capacity of 4.9 MW and is designed to generate electrical power and transmit it to the 110/10 kV Substation Severskaya via the 10 kV cable line. The electricity generated by the power plants is used on a general basis to supply electricity to consumers in the Seversky district.

PV modules with a capacity of 320 W, 325 W, 330 W and 345 W are adopted as the main generating equipment for SPP. PV modules generate direct current voltage.

Construction type - new construction.

The SPP technological scheme provides for the use of the following main equipment:

1) inverter station with a capacity of 5000 kVA, consisting of:

  • two inverters Sineng Electric EP-2500-HA-UD;
  • two-winding transformer with split winding LV with a voltage of 0.63 / 0.63 / 10.5 kV with a power of 5000 kVA;
  • auxiliaries board 0.4 kV;
  • ACS cabinet;
  • utility networks for their own needs;

2) a block-modular building of a transformer substation for auxiliaries of the SPP (installed on the territory of SPP-6Kr), consisting of:

  • switchgear 10 kV, consisting of two cells of the single-sided service chamber type;
  • dry transformer for auxiliary needs with a capacity of 100 kV ∙ A;
  • switchgear 0.4 kV;
  • utility networks for their own needs;
  • DGS with a capacity of 60 kW.

3) DC switching cabinets;

4) Helios Resours 320W, 325W, 330W and 335W silicon photovoltaic modules.

It is planned to place an administrative building, as well as an open warehouse for storing equipment on the territory of SPP-6Kr.

On the territory of SPP-7Kr there are checkpoints.

PМ modules, buildings IS (IS1-IS9), complete transformer substation, administrative building, located at the site of the SPP, are intended for installation in an open area.

Construction is planned for 2021.