Magnetically Controlled Shunt Reactor with Good Quality
- Ref Price:
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- Loading Port:
- China main port
- Payment Terms:
- TT or LC
- Min Order Qty:
- 2 unit
- Supply Capability:
- 300 unit/month
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Magneticallycontrolled shunt reactor
1.PRODUCT DESCRIPTION
Magneticallycontrolled shunt reactor(MCSR) 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 RANGE:100kvar--50000kvar
4. SERVICE ENVIRONMENT
l Normal working environment
l Installation site:both 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 35KV、66KV 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 |
7.REFERENCE PICTURES
- Q: explain the difference between an insulator and a conductor
- The main difference between the two, other than a conductor conducts both heat and electricity where is an insulator does not, is the number of electrons located in the outer shell. A conductor has either 1, 3, or 5 electrons in the outer shell. Both copper and silver has only 1 electron in the outer shell. This is why copper is used in house wiring. A insulator generally has either 4 or 8 electrons in the outer shell. Carbon, which has 4 electrons in the outer shell, is a fairly good insulator. This is why carbon is used to make resistors.
- Q: and which one to use in my country Egypt ?
- NFPA - National Fire Protection Association - National code that covers anything to do with flamable stuff (electrical, dust, combustibles, sprinklers, fire alarms, etc) (United States) NEC - National Electric Code a.k.a NFPA 70 (NEC is a section of the NFPA code) - Addresses proper installation of electrical equipment, devices and wiring(United States) NEMA - National Electric Manufacturers Association- trade organization for electrical manufacturers. Sets common rules, practices and certification for the manufacture of electrical components and devices (United States) IEC - International Electric Code - International version of NEMA IEC would most likely cover devices made for use in Egypt. I'm not sure what organization or governing body would address the installation there.
- Q: I have some questions about being and working as an electrical engineer. They are kind of random but please answer in as best detail as possible. (career project here)- Where do engineers work? In labs, in offices, or what? Any pictures- What do they wear to work (random, I know)- Do they do research, or just repair electrical equipment and what not?- How would a Ph.D. effect ones career.- Hows does on become a robotics engineer?
- whilst electric engineering does not contain a number of physics, you will nevertheless ought to take physics training in college. there is, certainly, a _lot_ of math. is likewise it a secure and exciting line to get into? this question bothers me. in case you have not already been fooling around with electric and digital issues, what makes you think of which you quite desire to be an electric engineer? electric engineering isn't something which you in common terms go with to do. that is something which you _have_ to do. i became taking aside and putting at the same time radios and television gadgets whilst i became in seventh or eighth grade. I had outfitted my very own radio transmitter in 9th. it quite is something that only approximately must be on your blood. the mathematics courses are used to weed out people who have not got the dedication to make it with the aid of. i'm not asserting which you won't have the capacity to make it, yet that is quite not a job which you in common terms go with to do sooner or later. It takes a number of dedication. It does pay properly, fairly in comparison to flipping burgers. you will likely make extra as a legal expert or wellness practitioner, yet those interests additionally require dedication. What do I do? It seems that i'm often a working laptop or pc programmer now. i'm area of a company that designs and builds inspection instruments that look for corrosion in oil gasoline wells and pipelines.
- Q: According to the Vancouver Sun interview with Gavin;Q: What is the future for waterfront cities like Vancouver?A: You are going to have to put up with rising sea levels; they are not going to go down. But there’s a huge difference between a foot or two over 100 years and a metre or two metres. There’s a lot of waterfront development going on but is it sea-level-rise smart? I don’t know that it is. So don’t put stuff in the basement, have all your electrical equipment on the second floor or on the roof.
- In general you should put your electrical equipment above ground level if doing so is convenient. There is little utility in putting it in the basement except that it is out of the way. The wisdom of this is especially true in areas that are flood prone; global sea level rise and other climate change phenomena will affect what areas are prone to floods.
- Q: examples of electrical equipment in which insulators and conductors are used.and give reasons for their usethxthe one that answers will get 10 points
- insulators are used on wires and places you don't want electricity to flow conductors are used in circuit boards and almost every electrical component. conductors are used to carry the flow of electricity.
- Q: I accidentally connected the negative and positive terminals of my battery with a wrench, I have checked all the fuses and none look to be blown. What else should I be looking for?
- need more info, always include make and model and year, and we can tel lyou where the fusable link is. but usually its a thick place close to the battery terminals on the positive side. its like a larger size of the main wires that feed solenoids etc. good luck
- Q: Do you find batteries die faster than they should, light bulbs flicker or go out too quickly, electrical equipment does werid stuff or dies sooner than it should. (If you don't believe in vampires, this question is not directed at you.)I suspect it's more of a psi-vamp than sang problem, but I'm currious. I've had some weird experiences with the computer and one small printer ar work. Also, I had a period where remote controled TV's would go on by themselves. I don't have that problem now, though.
- I'm a real vampire, and I'll tell you, half the stuff that you get from places (websites, movies, etc) is really 80% all fake. We can bring our energy into some items, also drain energy from some items. But, it would take a large amount of focus to do so, so unless you or someone else is in focus of doing so its a small chance that would happen.
- Q: I have an electrical equipment(Its quite old. aybe about 25 years old)These are the ratings:Input : AC 120 V 60 HzOutput : DC9V - 850mAI live in SIngapore which has a power input of 240VMy step down transformer/converter specsMaximum power it can convert is 230 watts
- DC9V @ 850mA is 7.65 watts. Your stepdown transformer can handle 230 watts so a measly 7.65 watts is no problem for it. Use it with confidence. Or buy a replacement AC adapter with an input of 240vAC, output of 9vDC for a lot cheaper. As long as the adapter output is rated for 850mA or higher, it will be good. (Make sure the polarity is correct, as well as the physical fit of the coaxial connector.)
- Q: direct tv came to the house we just moved into and the power went out when he was hooking up a reciever and turns out all our outlets are messed up except two. one is completely dead. one was red on his tester thing and he said that is dangerous--forgot what he said about it and all the other are open ground i guess, and the fuse keeps blowing. is there any way to fix it without an electrician??? my husband knows some electrical stuff thanks
- in a typical house, several outlets are connected together serially. this means that if there is just one outlet that has a detached wire on the back of the outlet panel, it would cut power to the others in that chain. the way i figured it out was - turn off the main from the control panel then open up each outlet panel to make sure wires are connected to the screws. however if you don't feel comfortable with electrical, call the electrician. it costs about $40-$60 for a call like this.
- Q: EMP Electromagnetic Pulse
- The EMP has the capacity to damage electrical equipment regardless of the source powering the electrical equipment, especially now that power generation devices depend heavily on sensitive microelectronics.
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Magnetically Controlled Shunt Reactor with Good Quality
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT or LC
- Min Order Qty:
- 2 unit
- Supply Capability:
- 300 unit/month
OKorder Service Pledge
OKorder Financial Service
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