CN204552181U - A kind of mountain area wind energy turbine set booster stations " T " character form structure - Google Patents

Abstract

A kind of mountain area wind energy turbine set booster stations " T " character form structure, comprise complex building, reactive power compensator, main transformer and Living Water treating apparatus, it is characterized in that, described complex building, main transformer are arranged on same transverse axis, reactive power compensator, Living Water treating apparatus are arranged on same vertical pivot, transverse axis is vertical with vertical pivot, and vertical pivot is positioned at transverse axis end, forms " T " font.Use the utility model, main transformer next-door neighbour's 35kV power distribution equipment and GIS power distribution equipment, save between device and connect required cable and steel-cored aluminium strand length, reduce initial investment.Booster stations arrangement is compact, and floor space is little, saves expropriation of land.In addition, all electric fixturess within doors and life room are arranged in complex building, make use of vertical direction spatial, effectively reduce floor space, save civil engineering costs, reduce construction period.

Description

A kind of mountain area wind energy turbine set booster stations " T " character form structure

Technical field

The utility model relates to a kind of mountain area wind energy turbine set booster stations arrangement, belongs to wind energy turbine set booster stations design field, particularly relates to a kind of mountain area wind energy turbine set booster stations " T " character form structure.

Background technology

In the last few years, there is the situation be doubled and redoubled every year in installed capacity of wind-driven power, growth momentum is powerful.With regard to China, there is abundant wind resource northern China and northwest, and the natural conditions of building wind energy turbine set are good, and mostly are Plain wind-powered electricity generation, and for southern inland, due to the restriction of natural conditions, Construction of Wind Power mostly is mountain area wind-powered electricity generation.Mountain area wind-powered electricity generation has many differences compared with the wind-powered electricity generation of Plain, the latter's addressing is simple, the latter's input cost is relatively low, mountain area wind-powered electricity generation is due to the weather of complexity and geographical environment, and need to consider more multifactor when designing wind energy turbine set, optimal design reduces initial investment and becomes focus.Wherein, the construction of wind energy turbine set booster stations is particularly important especially, and it plays collects wind energy turbine set wind-driven generator electric energy effect, and electric energy boosts and sends by it simultaneously.

Wind energy turbine set booster stations mainly comprise station electricity consumption power distribution cabinet, 35kV power distribution equipment, reactive power compensator, main transformer, grounding transformer and resistor box, station local coordinate frame, 110kV or 220kV power distribution equipment, overload protection device and Living Water treating apparatus; wherein, 110kV or 220kV power distribution equipment can be chosen for based on the AIS of air insulation line breaker (Air Insulated Switchgear) or the GIS based on gas insulation breaker (Gas Insulated Switchgear).Due to the freezing reason of mountain area High aititude, GIS is more employing in engineering.

How mountain area wind energy turbine set booster stations design, when 110kV or 220kV power distribution equipment is chosen for GIS, gives full play to GIS province ground advantage and answers emphasis to consider.

At present, mountain area wind-powered electricity generation booster stations are arranged and are adopted three-row or four-row arrangement more, and these two kinds of arrangements exist following shortcoming: (1) booster stations life building and production building arranged apart, cause booster stations floor space large, be unfavorable for taking over the land for use; (2 booster stations life buildings and production building arranged apart, civilwork engineering quantity certainly will be caused to increase, construction period increase; (3) stand electricity consumption electrical room position away from production building, the increase of cable consumption can be caused, increase the initial investment of wind energy turbine set.

Utility model content

The purpose of this utility model is to provide a kind of mountain area wind energy turbine set booster stations " T " character form structure and method for arranging, it can overcome the deficiencies in the prior art, meeting under actual requirement of engineering prerequisite, utilize building vertical direction spatial in booster stations as far as possible, reduce initial investment, save expropriation of land, reduce floor space, save civil engineering costs, reduce construction period.

The purpose of this utility model is achieved through the following technical solutions:

A kind of mountain area wind energy turbine set booster stations " T " character form structure, comprise complex building, reactive power compensator, main transformer and Living Water treating apparatus, described complex building, main transformer are arranged on same transverse axis, reactive power compensator, Living Water treating apparatus are arranged on same vertical pivot, transverse axis is vertical with vertical pivot, vertical pivot is positioned at transverse axis end, forms " T " font.

The method for arranging of one mountain area wind energy turbine set booster stations " T " character form structure as previously mentioned, comprises the steps:

(1) complex building, main transformer are arranged in parallel in booster stations, are in same transverse axis;

(2) reactive power compensator, Living Water treating apparatus are vertically arranged in booster stations, are in same vertical pivot;

(3) make transverse axis vertical with vertical pivot, vertical pivot is positioned at transverse axis end.

Further, described complex building is divided into two-layer layout, i.e. 0.00m layer and 4.50m layer; Complex building 0.00m layer is provided with 35kV electrical room, electricity consumption electrical room of standing, relay protection chamber, 0.00m layer life room; Complex building 4.50m floor is provided with 110kV or 220kV GIS room, master-control room, the office of 4.50m floor and life room; 35kV power distribution equipment indoor are provided with 35kV power distribution equipment; electricity consumption power distribution equipment indoor of standing are provided with station electricity consumption power distribution cabinet, grounding transformer and resistor box, station local coordinate frame; relay protection indoor are provided with overload protection device; 0.00m layer life room provides inhabitation, life area for booster stations operation maintenance personnel; 110kV or 220kV GIS indoor are provided with 110kV or 220kV GIS power distribution equipment; be provided with monitoring computer and communication electric phone in master-control room, the office of 4.50m layer and life room provide office, inhabitation, playground for booster stations operation maintenance personnel.

Further, described 35kV power distribution equipment comprising ground connection change cabinet, standing with becoming cabinet, reactive compensation cabinet, outgoing line cabinet and blower fan incoming line cabinet; Described 110kV or 220kV GIS power distribution equipment comprises two distribution intervals, i.e. inlet wire interval and outgoing line interval.

Further, the ground connection of described 35kV power distribution equipment is become cabinet and is connected by 35kV cable with between grounding transformer and resistor box, the station of 35kV power distribution equipment is also connected by 35kV cable with between change cabinet and the high-pressure side of station local coordinate frame, the low-pressure side of station local coordinate frame is connected by 1kV cable with between station electricity consumption power distribution cabinet, the reactive compensation cabinet of 35kV power distribution equipment is connected by 35kV cable with between reactive power compensator, be connected by bus between the outgoing line cabinet of 35kV power distribution equipment and the low-pressure side of main transformer, the blower fan incoming line cabinet of 35kV power distribution equipment is connected by 35kV cable with between wind-driven generator, the inlet wire interval of 110kV or 220kV GIS power distribution equipment adopts steel-cored aluminium strand to be connected with the high-pressure side of main transformer, and the outgoing line interval of 110kV or 220kV GIS power distribution equipment is connected by steel-cored aluminium strand with sending between circuit, send circuit outside electric power network.

The utility model tool has the following advantages:

1. booster stations arrangement is compact, and floor space is little, saves expropriation of land.

2. Office Area and living area subregion in complex building is arranged, is beneficial to the impact of reduction equipment on operation maintenance personnel, simultaneously, all electric fixturess within doors and life room are arranged in complex building, make use of vertical direction spatial, effectively can reduce floor space, save civil engineering costs, reduce construction period.

3. main transformer next-door neighbour's 35kV power distribution equipment and GIS power distribution equipment, is beneficial to connect required bus and steel-cored aluminium strand length between economy system, reduces initial investment.

Accompanying drawing explanation

Fig. 1 is mountain area of the present utility model wind energy turbine set booster stations " T " font arrangement schematic diagram.

Fig. 2 is that mountain area of the present utility model wind energy turbine set booster stations complex building 0.00m layer arranges schematic diagram.

Fig. 3 is that mountain area of the present utility model wind energy turbine set booster stations complex building 4.50m layer arranges schematic diagram.

Wherein: 1 is complex building; 2 is main transformer; 3 is reactive power compensator; 4 make a living running water processing unit; 5 is 35kV electrical room; 6 is relay protection chamber; 7 is station electricity consumption electrical room; 8 is 0.0m layer life room; 9 is 110kV or 220kV GIS room; 10 is master-control room; 11 is 4.50m layer life room; 12 is 4.50m layer office occupancy; 13 is 35kV power distribution equipment; 14 is overload protection device; 15 is station electricity consumption power distribution cabinet; 16 is grounding transformer and resistor box; 17 is station local coordinate frame; 18 is 110kV or 220kV GIS power distribution equipment; 19 is monitoring computer and communication electric phone; 20 for sending circuit.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail.

A kind of mountain area wind energy turbine set booster stations " T " character form structure (see Fig. 1), comprise complex building 1, main transformer 2, reactive power compensator 3, Living Water treating apparatus 4, described complex building 1, main transformer 2 are arranged on same transverse axis, reactive power compensator 3, Living Water treating apparatus 4 are arranged on same vertical pivot, transverse axis is vertical with vertical pivot, vertical pivot is positioned at transverse axis end, forms " T " font.

The method for arranging (see Fig. 1, Fig. 2, Fig. 3) of one mountain area wind energy turbine set booster stations " T " character form structure as previously mentioned, comprises the steps:

(1) complex building 1, main transformer 2 are arranged in parallel in booster stations, are in same transverse axis;

(2) reactive power compensator 3, Living Water treating apparatus 4 are vertically arranged in booster stations, are in same vertical pivot;

(3) make transverse axis vertical with vertical pivot, vertical pivot is positioned at transverse axis end.

Described complex building 1 is divided into two-layer layout, i.e. 0.00m layer (see Fig. 2) and 4.50m layer (see Fig. 3), complex building 0.00m layer is provided with 35kV electrical room 5, relay protection chamber 6, electricity consumption electrical room 7 of standing, 0.00m layer life room 8, complex building 4.50m floor is provided with 110kV or 220kV GIS room 9, master-control room 10,4.50m floor office occupancy 12 and 4.50m floor life room 11, 35kV power distribution equipment 13 is provided with in 35kV electrical room 5, overload protection device 14 is provided with in relay protection chamber 6, stand in electricity consumption electrical room 7 and be provided with station electricity consumption power distribution cabinet 15, grounding transformer and resistor box 16, station local coordinate frame 17, 0.00m layer life room 8 provides inhabitation for booster stations operation maintenance personnel, life area, 110kV or 220kV GIS power distribution equipment 18 is provided with in 110kV or 220kV GIS room 9, monitoring computer and communication electric phone 19 is provided with in master-control room 10, overload protection device 14 provides protection for booster stations equipment, Living Water treating apparatus 4 is for the treatment of living water use in booster stations, 4.50m layer office occupancy 12 and 4.50m layer life room 11 provide office for booster stations operation maintenance personnel, live, playground.

Described 35kV power distribution equipment 13 comprises ground connection and becoming cabinet, standing with becoming cabinet, reactive compensation cabinet, outgoing line cabinet and blower fan incoming line cabinet; Described 110kV or 220kV GIS power distribution equipment 18 comprises two distribution intervals, i.e. inlet wire interval and outgoing line interval.

The ground connection of described 35kV power distribution equipment 13 is become cabinet and is connected by 35kV cable with between grounding transformer and resistor box 16, the station of 35kV power distribution equipment 13 is also connected by 35kV cable with between change cabinet and the high-pressure side of station local coordinate frame 17, the low-pressure side of station local coordinate frame 17 is connected by 1kV cable with between station electricity consumption power distribution cabinet 15, the reactive compensation cabinet of 35kV power distribution equipment 13 is connected by 35kV cable with between reactive power compensator 3, the outgoing line cabinet of 35kV power distribution equipment 13 is connected by bus with between the low-pressure side of main transformer 2, the blower fan incoming line cabinet of 35kV power distribution equipment 13 is connected by 35kV cable with between wind-driven generator (not shown), 35kV power distribution equipment play a part to collect wind-driven generator generates electricity can, the inlet wire interval of 110kV or 220kV GIS power distribution equipment 18 is connected by steel-cored aluminium strand with between the high-pressure side of main transformer 2, and the outgoing line interval of 110kV or 220kV GIS power distribution equipment 18 is connected by steel-cored aluminium strand with sending between circuit 20, send circuit 20 outside electric power network.

Above-described embodiment is only for illustration of the utility model, can not assert that detailed description of the invention of the present utility model is only limitted to this, for the those of ordinary skill of relevant technical field, without departing from the concept of the premise utility, also can make some simple deduction or replace, therefore, all equivalent schemes also should belong to category disclosed in the utility model.

Claims (4)

1. mountain area wind energy turbine set booster stations " T " character form structure, comprise complex building, reactive power compensator, main transformer and Living Water treating apparatus, it is characterized in that, described complex building, main transformer are arranged on same transverse axis, reactive power compensator, Living Water treating apparatus are arranged on same vertical pivot, transverse axis is vertical with vertical pivot, and vertical pivot is positioned at transverse axis end, forms " T " font.

2. mountain area according to claim 1 wind energy turbine set booster stations " T " character form structure, it is characterized in that, described complex building is divided into two-layer layout, i.e. 0.00m layer and 4.50m layer; Complex building 0.00m layer is provided with 35kV electrical room, electricity consumption electrical room of standing, relay protection chamber, 0.00m layer life room; Complex building 4.50m floor is provided with 110kV or 220kV GIS room, master-control room, the office of 4.50m floor and life room; 35kV power distribution equipment indoor are provided with 35kV power distribution equipment; electricity consumption power distribution equipment indoor of standing are provided with station electricity consumption power distribution cabinet, grounding transformer and resistor box, station local coordinate frame; relay protection indoor are provided with overload protection device; 110kV or 220kV GIS indoor are provided with 110kV or 220kV GIS power distribution equipment, are provided with monitoring computer and communication electric phone in master-control room.

3. mountain area according to claim 2 wind energy turbine set booster stations " T " character form structure, is characterized in that, described 35kV power distribution equipment comprises ground connection and becoming cabinet, standing with becoming cabinet, reactive compensation cabinet, outgoing line cabinet and blower fan incoming line cabinet; Described 110kV or 220kVGIS power distribution equipment comprises two distribution intervals, i.e. inlet wire interval and outgoing line interval.

4. mountain area according to claim 3 wind energy turbine set booster stations " T " character form structure, it is characterized in that, the ground connection of described 35kV power distribution equipment is become cabinet and is connected by 35kV cable with between grounding transformer and resistor box, the station of 35kV power distribution equipment is also connected by 35kV cable with between change cabinet and the high-pressure side of station local coordinate frame, the low-pressure side of station local coordinate frame is connected by 1kV cable with between station electricity consumption power distribution cabinet, the reactive compensation cabinet of 35kV power distribution equipment is connected by 35kV cable with between reactive power compensator, be connected by bus between the outgoing line cabinet of 35kV power distribution equipment and the low-pressure side of main transformer, the blower fan incoming line cabinet of 35kV power distribution equipment is connected by 35kV cable with between wind-driven generator, inlet wire interval and the main transformer of 110kV or 220kV GIS power distribution equipment fly high-pressure side and adopt steel-cored aluminium strand to be connected, and the outgoing line interval of 110kV or 220kV GIS power distribution equipment is connected by steel-cored aluminium strand with sending between circuit, send circuit outside electric power network.