Energy IoT cloud platform energy consumption data monitoring

Description :

　　The power quality management system has excellent dynamism, and all parameters related to power quality and specific energy consumption can be presented well under the action of this system. Its timeliness is more ideal, and the data display is more intuitive. For track system workers, there is no need to spend a lot of effort, just based on the presented content, they can have a deep understanding of the specific power situation.

　　The system collects equipment status event information to generate alarm events, which include communication failures, equipment failures, phase loss in the 2nd incoming line, phase sequence errors in the 2nd incoming line, overload alarms, current imbalances, and other information. Alarm information is displayed in different colors according to the level, and different alarm sounds are played for alarms of different levels. When an alarm is generated, the alarm column displays the device alarm information. When the alarm is closed, the corresponding alarm is deleted from the alarm column.

　　Urban rail transit can fill the gap in citizens' transportation modes, and its operation requires continuous power supply support. In order to create a stable operating environment for rail transit, it is urgent to establish a corresponding power management system to achieve high-quality power supply. In this article, the corresponding energy management system will be used as the basis to analyze its operating mechanism and propose targeted solutions to enhance the operational efficiency of the energy management system.

　　Keywords: Rail Transit; Electric energy construction; Quality management system; evaluation mechanism

　　Although various modes of transportation shuttle through the streets of the city, rail transit is undoubtedly the ideal. In the era of low-carbon environmental protection, its position is particularly prominent, not only can it significantly reduce energy consumption, but also has stronger transportation capacity. This also reminds us to pay attention to the construction of rail transit. As the basic driving force, electricity is an indispensable factor, and relevant personnel need to carry out high-quality management of electricity, which is the prerequisite for the operation of rail transit.

　　Overview of Cloud Platform Introduction

　　Acrel EIoT energy IoT cloud platform is a set of platform based on the Ankeri IoT data middle platform, which has established the uplink and downlink data standards and provides Internet users with energy IoT data services. Users only need to purchase Ankerui IoT sensors and transformers, and install them themselves. Whether it is IoT instrument direct transmission or uploading through the gateway, they can use their mobile phones to scan the code to obtain the required industry data services.

　　system architectureThe Acrel EIoT energy IoT cloud platform adopts a layered and distributed structure, mainly composed of three parts: the perception layer (terminal collection devices), the network layer (communication management terminals), and the platform layer (energy IoT cloud platform).

　　Perception layer: Various sensors connected to the network, including multifunctional meters, prepaid meters, multi loop meters, IoT meters, IoT water meters, electric vehicle charging stations, car charging stations, street light controllers, etc. Network layer: Intelligent gateway, collects data from the perception layer, performs protocol conversion and storage, and uploads the data to the energy IoT cloud platform. Platform layer: includes application servers and data servers, which can implement applications on PC or mobile devices.

　　Platform ArchitecturePlatform Features

　　1. Energy supply

　　Power collection and reading function module

　　Intelligent operation and maintenance function module

　　2. Energy management

　　Safe electrical function module

　　Power Quality Function Module

　　3. Equipment management

　　Intelligent lighting function module

　　Prepaid water and electricity function module

　　Car/electric scooter charging operation function module

　　4. Energy analysis

　　Energy management functional module

　　Value added service function module

　　(1) Industrial configuration

　　(2) 3D visualization

　　Equipment selection

　　Analyze each link from top to bottom. In terms of data collection, it is necessary to use remote terminals to obtain various required indicators, such as harmonics, deviations, etc. This is the basis for subsequent steps and places strict requirements on the accuracy of monitoring. Next, two aspects of analysis will be conducted. If each indicator is analyzed one by one, it can be called a one-way indicator evaluation process; In addition, each indicator * ultimately needs to form a whole, so comprehensive evaluation is also essential, which is the comprehensive evaluation process. *Finally, by integrating the two dimensions of evaluation, a more comprehensive evaluation result can be obtained, which is the evaluation conclusion stage. *Finally, based on the conclusions drawn and taking into account the actual situation of the rail transit system, corresponding strategies are formulated to provide transportation support.

　　The user side consumes 80% of the electricity in the entire power grid, and intelligent electricity management on the user side is of great significance for reliable, safe, and energy-saving electricity consumption. Build an intelligent electricity service system, comprehensively promote user side intelligent instruments, intelligent electricity management terminals and other equipment electricity management solutions, and achieve a two-way benign interaction between the power grid and users. The research content urgently needed to be solved on the user side mainly includes advanced meters, intelligent buildings, intelligent appliances, value-added services, customer electricity management systems, demand side management, and other topics.

　　The power management solution subdivides and statistically analyzes the electricity consumption of the user end, and displays the usage and consumption of each sub item of electricity to management personnel or decision-makers through intuitive data and charts. This facilitates the identification of high energy consumption points or unreasonable energy consumption habits, effectively saving energy and providing accurate data support for users to further energy-saving renovations or equipment upgrades.

AfterSalesService :

• Energy IoT Cloud Platform