Daga cikin harsuna mai yawa na tattalin arziki duniya da kuma fadada masana'antar tsarin arziki, zama babu da yanayi a yi aiki a bincike gine-gine don in yi tasirin shiga rayuwarsa. Sabbin birnin da ya kamata da muhimman abubuwa suna nufin irin birnin da ya fi sani a matsayin muhimmiyar dalilin dole kan tattalin arzikin mafi inganci. Ana bukatar lissafin daidai na tarihin da za su iya yi, kamar yadda ake amfani da shi, tushen al'amuran da za su iya iya bayar, da kuma ma'anartar ta hanyar aiki.
1. Tarihin Da Za Su Iya Yi
Birnin da ya kamata da muhimman abubuwa ya yi amfani da gine-gine da ke da inganci da kuma ba sa ba da sakamako, don in bayar masana'anta. Daga cikin abubuwan da suka biyo, transformers, switch cabinets, da reactive power compensation devices suka yi amfani da sabon tarihi don in tabbatar da idan ake amfani da shi. Abubuwan da suka biyo suna amfani da intelligent monitoring, relay protection, da communication systems. Sensors suna ambaci bayanan, suke bayyana wa yau da kullum, kuma suke taimaka wa a yi amsa mai zurfi, wanda ke taimakawa a yi aiki da darasi da amincewa. Idan an yi amfani da standards na coordination daga cikin duk abubuwan, zai taimaka wajen yin aiki da kula-kula da kuma inganta tushen aiki.
2. Muhimman Tsaro Na Al'ummar Tsarin Arziki
2.1 Bayar Mutane Masu Karfin Karamin Ingantaccen Aiki
Aiki a cikin karamin arziki mai kyau yana nuna yawan karamin inganci saboda al'adun rarrabe da kuma tsarin yamma-biyar. Birni na da bukatar da shi wajen iya kawo karfin electric energy, da kuma samun energy storage interfaces. Karamin arziki mai kyau na yara yana nuna yawan karamin inganci saboda haliyar karamin arziki, wanda ke bukatar irin birnin da ya fi sani a yi amsa mai zurfi da kuma inganta tsarin karamin arziki. Don karamin arziki mai kyau na biomass, yawan karamin inganci na raw materials yana bukatar intelligent monitoring da kuma regulation, wanda ke taimakawa a inganta tushen aiki da kuma bayar darasi.
2.2 Yakin Shiga Rayuwarsa Da Kalmomin Karamin Inganci
Yawan karamin inganci na karamin arziki mai kyau na bukatar irin birnin da ya fi sani a yi dynamic reactive power compensation da kuma samun energy storage systems don in inganta tsarin karamin arziki. Birni na wurare da yake bukatar long-distance, large-capacity power transmission capabilities, da kuma design na equipment da line. Don communication, ya bukatar high-speed two-way link don in inganta data interaction da kuma bayyana wa yau da kullum bayan karamin arziki da birni.
3. Misauna Cikin Aikinsa
3.1 Projectin Karamin Arziki Mai Kyau
Projectin 500GW photovoltaic a Golmud, Qinghai, ya amfani da weather-resistant steel cabins don in inganta haliyar desert. Primary equipment da ake zaba shi ne ke tabbatar da conversion da distribution na electric energy. Secondary equipment ya yi remote operation and maintenance through intelligent monitoring and 5G, wanda ke taimakawa a yi aiki da darasi a cikin haliyan da ke da darasi.
3.2 Projectin Karamin Arziki Mai Kyau Na Yara
Projectin 300GW wind farm a Chifeng, Inner Mongolia, ya inganta composite materials for the prefabricated cabin don in inganta haliyar grassland. Primary equipment ya tabbatar da boosting da kuma grid-connection needs. Secondary equipment ya amfani da sensors and intelligent algorithms don in neman faults, wanda ke taimakawa a yi aiki da darasi a cikin haliyan da ke da darasi.
4. Muhimman Technologies and Solutions
4.1 Power Electronics Technology
Don in inganta heat dissipation, an amfani da liquid-cooling + structural optimization solution. Don electromagnetic compatibility, an amfani da shielding material encapsulation and circuit optimization wiring don in inganta performance na equipment.
4.2 Intelligent Monitoring and Operation-Maintenance
Don in inganta data processing, an amfani da distributed databases, 5G, and edge computing don in inganta transmission pressure. Fault diagnosis an amfani da big-data modeling and artificial intelligence algorithms don in inganta accuracy. Remote operation and maintenance an amfani da VR/AR technologies for visualization, wanda ke inganta efficiency.
4.3 Optimized Design and Integration
Equipment layout an amfani da 3D simulation don in zaba optimal solution. System integration an inganta interface and protocol compatibility issues through unified standards and conversion device development. Cabin structure an amfani da high-strength materials and optimized design don in inganta environmental adaptability.
5. Evaluation of Performance and Benefit Analysis
5.1 Technical Performance Indicators
An gina indicator system covering equipment stability (fault interval, failure rate, etc.), electric energy conversion efficiency (transformer efficiency, reactive power compensation accuracy, etc.), intelligent operation-maintenance level (data collection, fault early warning, etc.), and environmental adaptability (cabin protection performance) to comprehensively evaluate performance.
5.2 Evaluation Methods
High-precision sensors collect equipment and environmental data. After classification and analysis, software modeling predicts trends. Comparing with industry standards identifies gaps to guide performance optimization.
5.3 Economic Benefits
In the construction phase, prefabrication shortens the cycle, reducing capital costs and rework risks. In operation, intelligent operation-maintenance cuts labor costs, and quick fault repair boosts power generation revenue. Smaller land occupation reduces land costs, with overall benefits surpassing traditional substations.
5.4 Environmental and Social Benefits
Environmentally, the compact design reduces land occupation and protects the ecosystem. Socially, it accelerates new energy project implementation to meet electricity demand. Intelligent operation-maintenance promotes employment and industrial upgrading, supporting sustainable development.
6. Conclusion
After overcoming technical challenges, the modular intelligent prefabricated cabin substation meets new energy power generation needs, delivering economic, environmental, and social benefits. With technological innovation and standard improvement, it will play a key role in building a new power system, warranting continuous exploration and promotion.