Magnetically Controlled Shunt Reactor with Good Quality

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Magneticallycontrolled shunt reactor

1.PRODUCT DESCRIPTION

Magneticallycontrolled shunt reactorMCSR) has reached modern international advanced level.

According to theline transmission power, it can adjust itself capacity automatically, continuouslyand smoothly. MCSR is mainly used in power grid to limit the power frequency overvoltage,suppress the secondary arc current, eliminate

the self excitation of generator andthe reactive power compensation. The product has passed the State Level New Product Put into Operation Appraisal and the Liaoning Provincial Sci/Tech Achievement Appraisal. The technology of it has been issued a number of utility model patents by the State Intellectual Property Office. The product can be widely used for power system,electrified railway, metallurgy industry, coal industry, wind power and otherfields.

2.     CHARACTERISTICS

l  Capacity can be adjusted continuously in awide adjustment range;

l  Small floor space, high reliability,maintenance-free and more than 25 years service life;

l  Fast response speed. Less than 60ms;

l  Small harmonic wave. Total content of harmonicwave less than 3%, less pollution to the power grid

l  Low loss. Loss under rated power isgenerally 0.81 to 2% of capacity

l  Flexible installation method

l  Voltage class: 6-66KV


3.      CAPACITY RANGE100kvar--50000kvar

4.      SERVICE ENVIRONMENT

l  Normal working environment

l  Installation siteboth indoor and outdoor (indoor for resin cast)

l  Altitude: ≤1000m

l  Ambient temperature: -25+40℃

l  Special working environment: It can bedesigned and manufactured by the requirements of the users.

5.      MODEL AND SYMBOL



6.      MAIN PARAMETERS

6.1  10KV Oil-immersed magnetically controlled shunt reactor

Connection:Triangle Connection

Type

Rated capacity

kVar

Rated voltage

kv

Rated Current

A

Rated reactance

Ω

Dimensions L x W xH

mm

weight

Kg

BKST-1000/10

1000

10

57.7

300

2160 x2400 x2250

6800

BKST-1200/10

1200

10

69.3

250

2200 x2500 x2300

7300

BKST-1500/10

1500

10

86.6

200

2250x 2580x 2450

7900

BKST-1800/10

1800

10

104

166.7

2350x 2750x 2550

8300

BKST-2000/10

2000

10

115.5

150

2400x 2850x 2650

9250

BKST-2400/10

2400

10

138.6

125

2500 x3000x2850

11500

BKST-3000/10

3000

10

173.2

100

2600 x3200 x3200

14000

BKST-4000/10

4000

10

213

75

2680 x3400 x3380

15600

BKST-4500/10

4500

10

260

66.7

2700 x3500 x3500

17500

BKST-6000/10

6000

10

346.4

50

2850 x3600 x3600

22000

BKST-8000/10

8000

10

461.9

37.4

3000 x3800 x3750

26000

BKST-10000/10

10000

10

577.4

30

4200 x4500 x4100

36000

BKST-12000/10

12000

10

692.8

25

4400 x4700 x4300

39000

BKST-16000/10

16000

10

923.8

18.75

4600 x4900 x4500

45000

BKST-20000/10

20000

10

1154.7

15

4800 x5100 x4800

53000



6.2  35KV66KV Oil-immersed magnetically controlled shunt reactor

Connection: Triangle Connection

Type

Rated capacity

kVar

Rated voltage

kv

Rated Current

A

Rated reactance

Ω

Dimensions L x W xH

mm

Weight

Kg

BKSFT-8000/35

8000

35

131.96

459.4

4300x4500x4100

35000

BKSFT-10000/35

10000

35

164.96

367.5

4500x4700x4300

38000

BKSFT-12000/35

12000

35

197.95

306.25

4700x4800x4500

40000

BKSFT-16000/35

16000

35

263.9

229.7

4700x5000x4700

50000

BKSFT-20000/35

20000

35

329.9

183.75

4900x5200x4900

56000

BKSFT-25000/35

25000

35

412.4

147

5100x5300x5000

61000

BKSFT-31500/35

315000

35

519.6

116.7

5400x5600x5300

73000

BKSFT-7500/66

7500

66

65.6

1742.4

4400x4500x4500

42000

BKSFT-12000/66

12000

66

104.97

1089

4900x4900x4900

57000

BKSFT-20000/66

20000

66

174.95

653.4

5000x5300x5200

70000

BKSFT-31500/66

31500

66

275.6

414.9

5300x5500x5400

95000

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Magnetically Controlled Shunt Reactor with Good Quality

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Q:How do you check the terminal tempereture of a certain electrical switchgear?
At the utility I worked at for 35 years they started using sophisticated Infra Red temperature over 10 years ago. This equipment is extremely accurate up to 100 feet and has a screen that you can view in detail where the heat is being developed.It also has a built in camera so any problems can be shown to others.This equipment is used mainly in high voltage electrical substations.
Q:Is there a universal definition of electrical continuity, in terms of maximum ohms for the circuit?
The definition of electrical continuity is that the current will be closed by electrons and molecules. The ohms, is the resistance to the circut being closed completely, usually determined by a nominal factor in communication and audio equipment. 25 ohms is a high resistance. In other words, 4 ohm speakers will be almost twice as loud with the same applied volume than 8 ohm speakers. So your 25 ohm measurement is taking out most of the current. You are creating the resistance to the 100% continuity by 25 ohms. Ted Taff money911.ws
Q:Electrical Engineering or Mechanical Engineering?
I'm in EE and it's fairly difficult. I hear it's one of the harder ones (according to other engineers), but I enjoy it. It's still not TOO hard. I think that both are fairly important, but I believe that presently the big issue is interfacing with the nervous system/brain, so I might lean toward electrical. But then again, the bionic part itself is mechanical, so I think it just boils down to personal preference.
Q:is electronics engineering a promising field of study?
It's pretty booming right now, and probably will be for the next couple of decades at least. As far as possibilities go, what are you looking for? Some EE's start their own companies and make millions. It's as much as what you make of things as it is about hopping on the right train to take you where you want to go. The downside of engineering has to be the pressure and the deadlines. Marketing and money drive engineering. And the market doesn't want to wait forever for the next gismo. Your design has to be finished by a certain time or else the whole bridge project gets held up, etc.
Q:HOW WOULD ELECTRICAL TEST EQUIPMENT NORMally be grounded?
The national electric code states where no ground is available, you have to replace a two prong receptacle with another two prong receptacle. An exception is made for installing a GFI receptacle (3 prong) in the place of the 2 prong. Be aware, there still won't be a ground available for your equipment. Those are the only legal options you have besides rewiring to provide a ground. That is assuming there is no ground available at the box and chances are there is not. You are not allowed to run a ground wire separately to a water pipe or ground rod as the non trained hacks are going to try to tell you. That is a code violation. All conductors for a circuit must be run together according to the National Code. To convert your house or maybe just certain rooms, call a real electrician or pull new wires to the receptacles.
Q:Is it bad practice to disconnect a line with current still running through it?
no
Q:How long would it take for the world to recover from a series of EMP nuclear attacks?
EMP's that you are referring to are simply 'Nukes' detonated in the upper atmosphere. We do have modern EMP devices that are effective against point targets at very short range. Electronic equipment is the most sensitive to this effect. Its effect on our power grid is another question, because the range and duration of EMP1's,EMP2's, and EMP3's are different; although they are all part of a single blast. It would be many times more effective to drop the nukes on the targets of greatest strategic value. I would bet that EMP's will go the way of the Hydrogen bomb; theyre just not practicle. Restoration after such an event would be surprsingly quick because the structure of our power supply system would still be in tact.
Q:what is AC and DC and how do they work?
DC is direct current and AC is alternating current. From the names, DC is constant voltage that gives us potential energy directly such as batteries and AC is alternating between positive and negative voltages and has a specific frequency usually 50~60 Hertz. The reason why most devices blow up when connected directly to AC voltage is due to the fact that AC has a higher voltage rating than DC, and most electronic devices operate at lower voltage and therefore you see most electronic devices with transformers in order to convert the high AC voltage to DC voltage. The case of the light bulb is that it can operate by AC voltage, since light bulbs needs the frequency of the AC voltage source in order to keep flickering, however our eyes do not keep up with the flickering speed and see it as constant light.
Q:Because of global warming, should you put all electrical equipment on the second floor or the roof if your house is at sea level?
That sounds a bit simplistic. There are houses in Europe that are periodically flooded with little problem, but they are older brick or stone-built structures that pre-date electricity. Vancouver homes with gypsum wallboard and carpet or hardwood floors aren t going to fare so well.
Q:what equipment is needed to set up macbook when playing music live?
In order to get the most from your Mac as sound generator use a reasonably good audio interface (like the E-mu 0404 usb or something from M-audio). This should be connected to a mixer and this one to the PA system. You also should connect your microphone and guitars to the mixer too, so you can control the volume of each instrument, including the Mac. Although you can connect the mac directly to an Amp I won't do that in order to get control of volume and have better sound. Computers generally don't like live performing. Electric voltage can be unstable (heavy power consumption and lights on-off pattern). Use the appropriate electric equipment to make sure the computer always receive the correct amount of voltage. If not, it can fail and ruin your performance. Make a test where possible.

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