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AcreIEMS-MED Hospital Energy Management Solution

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AcreIEMS-MED Hospital Energy Management Solution

2024-02-01 11:55:59
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Overview

Acrel Hospital Energy Management System establishes an integrated energy management system of "monitoring, control and maintenance" based on the cloud platform, covering data collection, equipment control, data analysis, abnormal warning, operation and maintenance dispatch, system architecture and comprehensive data services. The design helps the hospital logistics management department understand the energy operation status of the hospital, pay attention to fire protection and electrical safety, provide timely warning of abnormal situations, and improve operation and maintenance efficiency. It integrates the 10KV/O.4KV substation power monitoring system, substation operation and maintenance cloud platform, distribution room comprehensive monitoring system, energy consumption management system, intelligent lighting control system, intelligent fire protection platform, electrical fire monitoring system, and fire protection equipment power supply Monitoring system, fire door monitoring system, fire emergency lighting and evacuation indication system, charging pile management system, power quality management solution, medical isolation power supply solution. Through an APP, you can understand the operating status of the hospital's power distribution system in real time, and according to the authority, it can be applied to the management needs of the hospital's logistics department, providing a good technical platform for hospital energy information construction and energy-saving management.

Structure


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AcreIEMS-MED Hospital Energy Management Solution Composition and Functions

• Real-time monitoring
• Abnormality warning
• Fault analysis
• Operation report of transformation and distribution system
Monitoring, measuring, recording, and alarming transformers, diesel generators, circuit breakers, and other important equipment, and communicates with protection equipment, remote control centers, and other equipment to grasp the operating status and possibilities of the power supply system in real time. Existing hidden dangers can be quickly eliminated to improve the reliability of hospital power supply.

The power monitoring subsystem is mainly aimed at switching stations and 10/0.4kV substations. The high-voltage circuit is equipped with microcomputer protection devices and multi-functional instruments for protection and monitoring. The 0.4kV outlet line is equipped with multi-function metering instruments for measuring and controlling the electrical power of the outlet circuit. parameters and energy usage. At the same time, the status of important hospital equipment such as diesel generators, reactive power compensation devices, active filtering devices, UPS, and isolated power systems is monitored.
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• Real-time monitoring
• Power quality monitoring(Class A),
• Power quality report, reactive power compensation.
• Harmonic control
• Nneutral line current reduction

The power quality monitoring and management subsystem monitors the power quality of each incoming circuit, including voltage sag, harmonic distortion, flicker and other data waveform records, and then determines the direction of disturbance in the distribution system. Configure active filtering devices and reactive power compensation devices to compensate and manage the power quality on the 0.4kV side, and monitor the operation of the active filtering devices and reactive power compensation devices to ensure that the power quality meets production requirements.
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• Real-time monitoring
• Build a three-level energy measurement system
• Calculate total energy consumption
• Energy consumption statistics by category and item
• Calculate energy intensity

Real-time measurement of energy consumption data of various energy-consuming equipment in buildings, and statistics and analysis of collected data. It can reasonably determine the economic indicators and performance evaluation indicators of building energy consumption in each department, discover energy usage patterns and energy waste, and improve personnel's awareness of proactive energy conservation.

1.Build the basic framework of the hospital’s smart energy management system and conduct real-time monitoring of each energy consumption link;

2.Carbon emission digitization: Through the system, per capita energy consumption analysis (including water, electricity, energy) in the building unit can be realized, and low-carbon office digitization can be realized;

3.Regional energy efficiency ratio: Compare regional energy consumption within a building unit to facilitate energy consumption assessment;

4.Energy efficiency ratio for the same period: Comparison of energy consumption in the same year, same period, and same area is achieved to facilitate energy-saving data analysis;

5.Energy consumption assessment management: Analyze energy consumption per unit area and energy consumption per capita indicators according to the energy consumption quota standard constraint value, standard value, and guidance value;

6.Energy consumption competition ranking: Compare the energy consumption of each department to achieve energy consumption ranking and enhance the energy-saving awareness of the entire hospital staff

7.Perform comprehensive analysis, statistics, printing and query functions on energy consumption data, and can choose to print different styles of reports according to the needs of the energy consumption monitoring and management system. Provide reliable basis for the energy consumption operation management department;

8.Collect energy consumption data, query it at any time, conduct statistical analysis based on the collected data, monitor abnormal energy usage, alarm for energy smart meter failures, and improve the level of system informatization and automation.
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• Real-time monitoring
• Insulation detection
• Fault location
• Provide safe power supply for Class II medical places

After the power supply is suddenly interrupted, in places with major medical risks, the power supply method should be adopted where the power system is not grounded (IT system).Category 2 medical places should use medical IT systems to maintain the life of patients, surgical operations and other electrical devices located around patients. Such as: emergency room (outpatient operating room), operating room, cardiac monitoring treatment room, catheter intervention room, vascular imaging examination room, etc.

ACREL's medical isolated power supply solution is developed and designed for the power supply needs of medical Class II places. It can well meet the power supply safety and reliability requirements of various operating rooms and intensive care units. And comply with relevant national standards.
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• Real-time monitoring
• Scene control
• Timing Control
• Induction control
• Light Energy Saving

The hospital has a dense flow of people and many departments, and lighting electricity accounts for about 15% of the hospital's power consumption. Therefore, the lighting control system should be used rationally to maximize the use of natural lighting while improving the experience of doctors and patients. Through induction control, the lights can be turned on when people come and turn off or maintain low-intensity lighting when people leave, so as to reduce lighting electricity consumption as much as possible.

The ASL1000 intelligent lighting control system can implement multiple control methods such as scene control, time control, area control, illumination sensor control, and infrared sensor control. It can effectively avoid lighting waste in public areas and can also help hospitals manage lighting.

The system's modules in the distribution box mainly include bus power supply, switch driver, IP gateway, coupler, dry contact input module, etc. These modules are mounted using 35mm standard rails.

The modules installed at the control site mainly include illumination sensors, infrared sensors and smart panels. When someone passes by, you can set the infrared sensor to control the lights, and turn off the lights within a set time after the person leaves. Manual control equipment such as smart panels can realize the combination of automatic control, on-site control and remote control in the duty room.

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