1. Comparison of energy consumption caused by differences in transmission efficiency
During the power transmission process, traditional cables will produce a certain amount of power loss due to their own resistance characteristics. Especially when transmitting long distances and large currents, the resistance heating phenomenon of cables is more obvious, and the loss of this part of heat means a waste of electrical energy. The Intensive Bus Duct uses metal materials with excellent electrical conductivity such as copper or aluminum as conductors, and its structural design makes the current distribution more uniform, which can effectively reduce resistance and reduce the loss of electrical energy during transmission. For example, in the power distribution of large industrial plants or high-rise buildings, when the transmission power is large, the power loss of Intensive Bus Duct may be reduced by 10%-30% compared with traditional cables under the same length and load conditions. This kind of transmission The difference in efficiency is directly reflected in the difference in energy consumption. After long-term operation, the energy-saving effect is significant.
2. The impact of heat dissipation methods on energy utilization
The heat dissipation of traditional cables mainly relies on its own heat conduction and the natural convection and radiation of the surrounding environment. Since cables are usually multi-core structures and are insulated and wrapped with each other, heat dissipates relatively slowly. In high temperature environments, the resistance of the cable will further increase, resulting in increased energy consumption. Intensive bus duct has a unique heat dissipation structure. Its outer shell is generally made of metal, which has good thermal conductivity and can quickly dissipate the heat generated by the internal conductor. At the same time, some Intensive Bus Ducts are also equipped with special heat sinks or ventilation devices to further improve heat dissipation efficiency. This efficient heat dissipation method allows the bus duct to maintain a lower temperature during operation, which not only reduces the increase in resistance and energy consumption caused by temperature rise, but also improves the overall stability and reliability of the system, thus The heat dissipation link achieves energy-saving advantages.
3. Energy saving relationship during installation and maintenance
The installation of traditional cables is more complicated, especially when laying multiple cables, which requires a large number of auxiliary facilities such as bridges and wire troughs, and the bending radius of the cables is limited, which may cause a certain amount of length waste during the wiring process. The modular design of Intensive Bus Duct makes its installation more convenient and can be flexibly spliced according to actual needs, reducing material loss and labor costs during the installation process. In terms of maintenance, once a cable fails, it is difficult to locate and repair it, and often requires large-scale inspection and replacement. During this period, power supply interruption and additional energy consumption will be caused. Intensive Bus Duct can quickly locate fault points through an intelligent monitoring system, and its structure facilitates local repair and replacement, shortens power outage time, improves energy utilization efficiency, and demonstrates energy-saving features from the perspective of the entire life cycle of installation and maintenance.
4. Reflection of energy-saving benefits in life cycle costs
From the perspective of the entire life cycle of the product, although the initial investment of Intensive Bus Duct may be relatively high, considering its long-term energy-saving effect, lower maintenance costs and longer service life, its total cost may be low. than traditional cables. For example, in a commercial complex project, after 20 years of operation cycle calculation, although the upfront purchase and installation cost of Intensive Bus Duct is 20% more than that of cable, the final cost is due to the annual cost savings in power loss, maintenance and replacement. The total cost may be about 15% lower than traditional cables. This energy-saving benefit in life cycle costs makes Intensive Bus Duct more effective in projects that require higher long-term operating costs and energy efficiency.
