5 major resistances and 3 suggestions for road lighting energy saving in China


In the world energy crisis of the 1970s, the Japanese Ministry of Finance had asked for interval lighting tests on factories, offices and roads, resulting in lower productivity and office efficiency, as well as a significant increase in security and road traffic accidents, less than a year ago. Just gave up in a piece of opposition. Obviously, this negative power saving is not advisable.

This concept is scientific and reasonable in terms of ensuring lighting effects. This is one of the design ideas of road lighting systems in developed countries.

First, the status quo of China's street lighting

According to the survey, after 9:00 in the small cities of China, the big and medium-sized cities are almost empty on the road after midnight, even in the bustling cities like Beijing, Shanghai and Guangzhou. Pedestrians, vehicles. From this time until the 6 o'clock in the morning, the street lights are extinguished, and it is obviously unnecessary to maintain a high illumination on the road with low traffic flow. Urban public lighting accounts for 30% of China's lighting power consumption, about 43.9 billion kWh, calculated at an average electricity price of 0.65 yuan / kWh, and annual expenditure of 28.5 billion yuan. Today, when the municipal expenditure is extremely tense, most cities and regions in China have almost adopted the method of saving money by turning off the lights of the street lamps abandoned by Japan and other countries in the 1970s. The drawbacks are self-evident. As a result, the illuminance of the road surface is unevenly distributed, which poses a hidden danger to public security and traffic safety, and can not avoid the loss of the street lamp life in the second half of the night. Therefore, it cannot be called energy saving in the true sense. Today, when developed countries are discussing what is the right level of illumination, our control method is too backward.

Since the 1990s, the construction of night lighting has become an important part of the construction of urban municipal facilities. The localities have also achieved corresponding results, but the general tensions in municipal expenses and the addition of night lighting have formed a great contradiction. Taking an open city in the coastal area as an example, a large number of street lamps were forced by financial stress after installation. They could not afford the heavy lighting and electricity expenses, and had to turn off nearly half of the lights. As a result, some of the newly installed street lamps were in the same shape in recent years, resulting in Waste in disguise.

How to make the street light shine, let the city light up, brighten the science, save energy and save money? The answer is: use intelligent light source to step down a voltage regulator and dimming technology.

Second, intelligent light source buck-regulation-dimming technology

1. What is the intelligent light source buck one regulator one dimming technology intelligent light source buck one regulator one dimming technology is the internationally popular all-digital intelligent street lamp energy-saving control technology. It fully considers the actual situation of urban road lighting. According to the visual theory in ergonomics, it adopts the optimal control method in modern cybernetics to realize the dynamic intelligent control of street lamp voltage and illuminance, namely TPO governance. The basic idea of ​​this technology is to control the street lights to maintain a strong illumination during busy hours, close to midnight, and start automatic dimming. When the car is sparse in the latter half of the night, the street lights are kept at a lower illumination. Its main advantage is that it greatly reduces power consumption while dimming, saving more than 30% of active power consumption. Room lamp dimming has been popular for many years, mainly because the indoor lamp power is small and easy to implement. The road lighting is completely different: first, the lamp power is large and difficult to control; secondly, the use environment is harsh. In the 1990s, the power electronic component technology has developed by leaps and bounds, and the dimming technology has reliable quality assurance. Scale application, its perfect dimming effect and power-saving function have been unanimously recognized. In Germany, the United States, these power-hungry countries, such technology has also been strongly supported and promoted by the government: intelligent light source buck-regulation-dimming The technical control process is: by measuring the time and vehicle statistics of urban road vehicles and pedestrians, obtaining the corresponding illuminance adjustment rate, and designing the computer control program accordingly, according to the illuminance adjustment rate, starting from a certain moment, smoothly The street lamp input voltage is dynamically adjusted to achieve the best match between the street lamp input electric power and the actual illuminance requirement, which not only saves energy, but also stabilizes the voltage, prolongs the service life of the street lamp, and achieves energy saving in a dual sense.

2. Turning on the lights is more economical than turning off the lights. The energy-saving method of turning off the lights mentioned above is at the expense of urban lighting and the crime rate and the increase of traffic accidents, while the intelligent light source is reduced by a voltage regulator and a dimming technology. The power saving rate is higher than 30%. From this point of view, the intelligent light source is used to step down a voltage regulator and dimming technology, and turning on the light is more economical than turning off the light.

3. Count an invisible account

More than 70% of the existing street lamps in China use high-pressure sodium lamps, and their design life is 24,000 hours. However, due to the backwardness of China's urban power grid technology, the voltage fluctuation of the line greatly exceeds the international standard. The fluctuation of many areas even exceeds 15% of the rated voltage. Especially in the latter half of the night, the grid voltage sometimes approaches 245V due to the reduction of the electrical load, resulting in street lights. The actual life of the bulb is less than one year on average. Now, it can be counted as an account: in the case of an open coastal city, the street lamp needs to be replaced once a year. The cost of replacing a light bulb is 120 yuan. There are more than 20,000 normally-open street lights in the city, only replacement every year. The cost of street light bulbs is as high as more than two million yuan. If the intelligent light source is used, the voltage regulator and the dimming technology can be used, the service life of the street light bulb can be doubled. This alone can save two years. More than one million yuan, plus 30% power saving, can save more than seven million yuan in electricity costs a year, the two add up to nearly 10 million yuan. If 4.5 million yuan is used as an initial investment, the savings in half a year can be recovered, and the funds saved annually can be reinvested in municipal construction.

According to the incomplete statistics obtained at the ninth annual meeting of the National Road Lighting Professional Committee in 1999, the total number of road lights in all urban areas in China is about 3 million, and industrial and mining enterprises, stations, machine-taste terminals, highway lighting, etc. There are about 1 million municipal lighting fixtures, totaling more than 4 million, and increasing by more than 10% annually. If this technology is adopted in a timely manner, it can only be calculated from three items: saving electricity, reducing light bulb loss and labor expenses. In five years, it can save nearly 10 billion yuan for the country, and it can build three small power plants with a capacity of 1.2 million kW. Saved a lot of raw coal.

For the total electricity consumption in the country, road lighting only accounts for a small percentage, which is why it is likely to become a breakthrough in promoting energy-saving sports. Starting from the road lighting, it took two or three years to explore a set of commercial operation modes in line with China's national conditions, and then comprehensively promoted in all walks of life across the country. Of course, this requires the government to make great determination and make great efforts to promote it.

4. Intelligent light source buck, a voltage regulator, and the promotion of dimming technology is urgently needed by the government.

Street lamp energy saving will undoubtedly save a lot of money for municipal expenses. However, for the street lamp management department, their daily expenses and regular maintenance costs are directly proportional to the street lamp power consumption and installation quantity. The more electricity consumption, the next year The cost will increase year-on-year. It can also be said that the more electricity is saved, the less the budget for the next year will be. Therefore, the street lighting management department has a negative attitude towards most energy-saving projects. This phenomenon reflects that the energy conservation policy does not match the current system and the distribution mechanism of interest in the specific operation. At present, the policies implemented in various places are actually encouraging waste! There is a great relationship between the long-term interests of the whole country and the short-term interests of the departments. Contradictions. This situation has generated considerable resistance to the in-depth development of energy conservation work.


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A cable is a component that connects one or more wires that can be insulated or used to transfer electrical energy or signals. Used as a primary overhead conductor for primary and secondary distribution. Designed for use with high strength aluminum alloys to achieve high strength to weight ratios; provides good droop characteristics. AAAC, ACSR is part of a series of overhead conductors, transmission conductors and distribution conductors. These cables are officially referred to as all-aluminum conductors (AAAC) and aluminum conductor bars (ACSR). These overhead aluminum conductors are used as power transmission and distribution lines. Depending on the application, all aluminum conductors are made of one or more strands of aluminum wire.
The following are the picture and parameters of our product, for more details about the cable and fitting, please contact us. 

MAIN DIMENSIONS AND STANDARD PARTICULARS
Code Number Stranding&wire diameter Approx Overall diameter Norminal Area Approx weight Breaking Load DC Resistance at 20
mm mm mm2 kg/km KN Ohm/km
16 7/1.83 5.49 18.4 50.4 5.43 1.7896
25 7/2.29 6.86 28.8 78.7 8.49 1.1453
40 7/2.89 8.68 46 125.9 13.58 0.7158
63 7/3.63 10.9 72.5 198.3 21.39 0.4545
100 19/2.78 13.9 115 316.3 33.95 0.2877
125 19/3.10 15.5 144 395.4 42.44 0.2302
160 19/3.51 17.6 184 506.1 54.32 0.1798
200 19/3.93 19.6 230 632.7 67.91 0.1439
250 19/4.39 22 288 790.8 84.88 0.1151
315 37/3.53 24.7 363 998.9 106.95 0.0916
400 37/3.98 27.9 460 1268.4 135.81 0.0712
450 37/4.22 29.6 518 1426.9 152.79 0.0641
500 37/4.45 31.2 575 1585.5 169.76 0.0577
560 61/3.67 33 645 1778.4 190.14 0.0516
630 61/3.89 35 725 2000.7 213.9 0.0458
710 61/4.13 37.2 817 2254.8 241.07 0.0407
800 61/4.38 39.5 921 2540.6 271.62 0.0361
900 91/3.81 41.8 1036 2861.1 305.58 0.0321
1000 91/4.01 44.1 1151 3179 339.53 0.0289
1120 91/4.25 46.7 1289 3560.5 380.27 0.0258
1250 91/4.49 49.4 1439 3973.7 424.41 0.0231
AAAC-All-Aluminum-Alloy-Conductor-

MAIN DIMENSIONS AND STANDARD PARTICULARS
Code Number Stranding&wire diameter Approx Overall diameter sectional Area Approx weight Breaking Load DC Resistance at 20
AL(mm) Steel(mm)              mm Al(mm2) Steel(mm2) Total(mm2) kg/km KN Ohm/km
16 6/1.84 1/1.84 5.53 16 2.67 18.7 64.6 6.08 1.7934
25 6/2.3 1/2.30 6.91 25 4.17 29.2 100.9 9.13 1.1478
100 6/4.61 1/4.61 13.8 100 16.7 117 403.8 34.33 0.2869
125 18/2.97 1/2.97 14.9 125 6.94 132 397.9 29.17 0.2304
160 18/3.36  1/3.36 16.8 160 8.89 169 509.3 36.18 0.18
250 22/3.80 7/2.11 21.6 250 24.6 275 880.6 68.72 0.1154
400 54/3.07 7/3.07 27.6 400 51.9 452 1510.3 123.04 0.0723
450 54/3.26 7/3.26 29.3 450 58.3 508 1699.1 138.42 0.0643
500 54/3.43 7/3.43 30.9 500 64.8 565 1887.9 153.8 0.0578
560 54/3.63 19/2.18 32.7 560 70.9 631 2103.4 172.59 0.0516
630 54/3.85 19/2.31 34.7 630 79.8 710 2366.3 191.77 0.0459
710 54/4.09 19/2.45 36.8 710 89.9 800 2666.8 216.12 0.0407
800 72/3.76 7/2.51 37.6 800 34.6 835 2480.2 167.41 0.0361
900 72/3.99 7/2.66 39.9 900 39.9 939 2790.2 188.33 0.0321

 cable and fitting ACSR

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