Chinese Carbon Alloy Seamless Steel Tube20# 45# 16mn P11
1 Type: Hot-rolled Steel Pipe
2 Standard: ASTM A1045 , ASTM A53,GB/T8162-2008,GB/T8163-2008
STPG42 JIS G3454, DIN1626
JIS G3456/3461, DIN17175, DIN1629
3 Material: Carbon45, ASTM 1045
4 Outer Diameter: 15mm-1020mm
5 Wall Thickness: 4-100mm Length: randomly(6-12m) or according to the requirements
6 Applied for: liquid service, mechanical structure, oil industry, transportation and construction
7 Technique: Hot-rolled Seamless
8 Place of Origin: Liaocheng, Shandong, China
Alloy Steel Pipe,Alloy 20 Pipe,Seamless Alloy Steel Pipe ,Alloy Steel Seamless Pipe Liaocheng Xinglong Seamless Tube Manufacturing Co., Ltd. , https://www.lcxlpipe.com
LED plant lighting market: low-key bloom
With the continuous expansion of LED in the field of lighting, plant lighting has occupied a place in this field, and gradually applied to various crop fields such as agricultural production, fruit and vegetable cultivation, and flower cultivation. Although the application scale is not as extensive as that of ordinary commercial or home lighting, plant lighting, as a special application field of LED, has gradually gained market recognition due to its superiority, and market demand is growing. In general, China's current planting photography is still in its infancy, and technology and channel construction are the breakthrough points for many companies that want to seize the opportunities in this field. Foreign lighting giants are lighting the entire plant in the layout of LED plant lighting business. The industry has played a positive role in promoting. Current status of plant lighting In the context of fierce competition in the lighting market and increasingly prominent environmental health issues, plant lighting applications have gradually become one of the directions of LED development. Many LED manufacturers have begun to deploy LED plant lighting business. In general, the light sources used in the cultivation of traditional plant facilities are generally fluorescent lamps, metal halide lamps, high-pressure sodium lamps and incandescent lamps. These light sources are selected according to the adaptability of the human eye to light, and the spectrum has many unnecessary wavelengths. It has little effect on the growth of plants. As the fourth generation of new lighting source, LED has the advantages of energy saving, environmental protection, safety and reliability, long service life, short response time, small size, light weight, low heat generation, easy dispersion or combined control, and many other important characteristics different from other electric light sources. The wavelength of the emitted light can range from ultraviolet C (~250 nm) to infrared (~1000 nm), and the wavelength range of light emitted by each LED can be narrow. Therefore, it is a very effective plant illumination source with real spectrum control capability and has broad development prospects. It is understood that the output value of global LED application plant lighting has been growing at a high speed since 2013. The preliminary statistics reached US$100 million in 2014 and is expected to reach US$500 million in 2017. As an emerging market, plant lighting has attracted the development of a large number of international giants. In May 2016, Matsushita announced the delivery of an artificial light plant factory system to SG Greenhouse, a subsidiary of Western Japan Gas Company. SG Greenhouse began to carry out cultivation demonstration experiments in January 2016, and then began selling low-potassium lettuce that reduced the potassium content to less than 20% (98 mg/100 g or less) from May 20. It is reported that the artificial light plant system and cultivation technology delivered this time incorporates many technologies of Panasonic, including plant cultivation control technology using energy conservation, analysis and optical technology, and environmental control technologies such as lighting and air conditioning. The plant factory system will provide a homogeneous cultivation environment while reducing power consumption, improve cultivation yield, and contribute to agricultural industrialization. In June, Cree announced the launch of XQ-E Photo Red LED optimized for plant lighting. Compared with the nearest peer products, the output of this product is similar, and the size is only 1/3. XQ-E Photo Red LED expands the range of small-sized LED devices optimized for plant lighting, enabling lighting manufacturers to reduce lamp size, reduce system cost, and provide higher photosynthetic photon Flux (PPF). Efficiency and reliability. The domestic market is slightly lagging. Compared with foreign markets, domestic large enterprises do not actively develop the plant lighting market. The lack of comprehensive talents, high cost, lack of patents, and low output rate of enterprises are all difficulties faced by domestic enterprises. All of these have caused domestic plant lighting to lag behind the international market, and the domestic market penetration rate is low. Comprehensive talents who understand biological cultivation knowledge and LED technology are the key to developing plant lighting products. Many international manufacturers cooperate with research institutes to establish laboratories or plant factories with the support of national policies. For domestic companies, this investment is too large and the cost is too high. At present, some enterprises cooperate with agricultural research institutions, but basically discuss related technical issues, and rarely involve the experimental application stage. However, the investment of most small and medium-sized enterprises in plant lighting only stays on the independent research and development of a few plants such as tomato and Chinese cabbage, that is, the simple illumination of related plants by LED lamps is not widely used. The small scale, small quantity and lack of core technology are the bottlenecks in the development of domestic plant lighting technology. According to relevant statistics, as of June 2012, there are about 40 LED plant lighting companies in China with a certain scale. Guangdong is the main province of LED plant lighting enterprises, accounting for up to 84% of the country, most of which are concentrated in Shenzhen. Representative enterprises include Shenzhen Federal Heavy Electronic Technology Co., Ltd., Shenzhen Hao Optoelectronics Technology Co., Ltd., Shenzhen Changtian Lighting Ltd., Shenzhen Sanxinbao Semiconductor Lighting Co., Ltd. and Shenzhen Yishangguang Technology Co., Ltd., etc. Followed by Shandong Province, accounting for 8%. In terms of demand, the areas with the largest demand for LED plant lighting are in Central China, East China and North China, and the agriculture and flower industries are relatively developed. However, from now on, the main market for LED plant lighting is abroad, domestic demand is still small, and it is in its infancy, so there are not many LED plant lighting companies in Shandong and Henan. In addition to the uneven distribution of enterprises, China's semiconductor chip epitaxial wafer industry started late, accumulated less experience, and the patent strength in chip extension is relatively weak. A large number of core patents are in the hands of early leading companies such as Japan's Nichia and American Cree. It also greatly hindered the development of domestic chip companies. These are the problems facing the current development of plant lighting in China. Plant lighting subverts traditional agricultural methods With the deepening of research on semiconductor luminescent materials, the gradual improvement of LED manufacturing technology and the research and development of new materials, LED technology has also made breakthroughs. In the development of plant facilities, LED technology is gradually being use. Especially after the successful development of ultra-high brightness LED, the research on photophysical research, photosynthetic process and chlorophyll working mechanism has been widely used in plant physiology or cultivation. Recently, the intelligent LED plant factory independently researched and developed by the Chinese Academy of Agricultural Sciences, with its subversive technology of land use and farming methods, was unveiled at the National Twelfth Five-Year Innovation Achievement Exhibition held here. It is reported that the technology selects the corresponding LED light instead of sunlight as the light source according to the preference of plants for different spectra, and carries out 24-hour uninterrupted illumination, which can be used for environment, temperature, humidity, airflow, carbon dioxide concentration and nutrient solution in the plant. The elements are automatically monitored in real time to ensure maximum photosynthesis. Compared with the traditional planting mode, the land utilization rate is high, the operation is labor-saving, the degree of mechanization is high, the product safety is non-polluting, and the nutritional value is greatly improved. At present, the research and development results have an important influence in the field of facility horticultural engineering at home and abroad. With the continuous advancement of technology, it has been very efficient to plant some plants in space using LED illumination. In August 2015, astronauts living in the International Space Station first tasted the lettuce they planted in space. The seeds of the lettuce are sprinkled on a mat for rooting and germination, and the mat consists of soil and fertilizer. Each vegetable box is equipped with red, green and blue LED lights to promote vegetable growth. Scientists see the taste on the tip of the tongue as an important step in the manned spacecraft to Mars.