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Deploy smart sensors (current/voltage/temperature), environmental monitors (irradiance, temperature and humidity), high-definition cameras, 4G industrial IoT gateways, etc. to collect power station operating data and environmental parameters in real time. Adopt a hybrid communication network (4G+ optical fiber) to support microwave bridges to cover remote areas and ensure real-time data transmission. Intelligent and digital management of distributed photovoltaic power stations is realized through Internet of Things technology, improving power generation efficiency, reducing operation and maintenance costs, ensuring system security, and supporting large-scale application of green energy.

Distributed photovoltaic power station solutions

Project

Background

Operation and maintenance inefficiency: Distributed power stations are scattered and have numerous equipment, traditional manual inspection costs are high (average annual operation and maintenance costs per MW exceed 20,000 yuan), and fault response time is long (24 hours). Power generation loss: Problems such as component fouling and shadow blocking have led to a drop in power generation efficiency by 5%-15%, and there is a lack of real-time monitoring methods. Safety hazards: High risks of electrical fires and equipment theft, and it is difficult for traditional security methods to cover remote sites. Policy-driven: Countries '"carbon neutrality" goals have driven a surge in photovoltaic installed capacity (global annual growth rate exceeds 20%), but power grids have increasingly strict requirements for controllability of power stations. China's "county-wide advancement" policy is accelerating the popularization of distributed photovoltaics, with the target installed capacity exceeding 300GW in 2025.

efficient operation and maintenance

Required fault location time
Safety guarantee

Achieve anti-theft of power station equipment (video AI identifies abnormal intrusions) and electrical fire warning (temperature sudden warning). Encrypted data transmission and storage.
economic improvement

Through power generation optimization and demand response, annual revenue of power stations has increased by 5%-10%. Extended equipment life (reduced failure rates by>40% through preventive maintenance).
Intelligent scalability

Support future access to new equipment such as energy storage and charging piles, and the platform can be expanded to 1000+ site management. Provide open APIs to seamlessly connect with existing ERP and energy management platforms.

Requirement

Distributed photovoltaic power station solutions

The solution is based on a four-layer architecture of "sensing layer-network layer-platform layer-application layer", integrating intelligent sensing and 4G industrial Internet of Things gateway, realizing a closed-loop collection, analysis, and decision-making of distributed photovoltaic power plant data, and supporting intelligent operation and maintenance. and energy efficiency optimization. Sensors are used to collect data such as photovoltaic module power generation efficiency, inverter status, environmental temperature and humidity in real time to form a full-link monitoring network. High-speed data transmission is realized through communication technologies such as 4G, and collaborative processing between cloud and local edge computing is supported. Build an intelligent operation and maintenance system based on the Huawo IoT Cloud Platform to realize functions such as fault warning, remote control, and energy efficiency optimization.

program introduction

Real-time monitoring of remote operation and maintenance

Through IoT sensors, data such as photovoltaic module power generation efficiency, inverter operating status, environmental temperature and humidity are collected in real time, and intelligent algorithms are combined to achieve abnormal warning and fault location, reducing the cost of manual inspection. Support remote parameter adjustment, equipment restart and other operations on distributed power stations, quickly respond to unexpected problems, and reduce downtime losses.
data-driven decision-making

Through historical data comparison and trend prediction, we identify inefficient components and formulate optimization plans to improve overall power generation revenue. Combined with distribution network load fluctuation data, dynamically adjust the grid-connected power of the distributed system to relieve the pressure on local power grids.
security and stability

Monitor voltage, current and other parameters in real time, immediately alert risks such as overload and short circuit, and automatically isolate faults to ensure system safety. Achieve local data processing through edge computing technology, reduce the impact of network latency, and ensure operational stability in extreme weather.

application scenarios

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Hebei ICP preparation 2024093138 - 1