Energy Management System

BRIEF   INTRODUCTION

The energy management system is built on the latest service-oriented, cloud computing, and mobile architectures. It collects energy consumption data from various monitoring points (such as power distribution, lighting, air conditioning, water supply and drainage, gas, and key equipment). Through professional data analysis and processing, the system categorizes energy usage by type, item, time, and region, enabling enterprises to achieve comprehensive visibility into their energy consumption. This allows companies to intuitively identify opportunities for improvement and optimization, thereby optimizing energy use, reducing overall energy consumption, and achieving the goal of energy conservation and efficiency enhancement.

MAJOR   FUNCTION

BUSINESS BACKGROUND

With the increasing energy shortage and environmental degradation, obtaining economic, convenient, and environmentally friendly energy has become an urgent issue related to human survival and sustainable development. Finding solutions to improve energy utilization efficiency has become a common responsibility of the whole society, from households to enterprises and governments. Various water, electricity, and gas equipment and classified energy consumption are one of the main components of industrial facilities and social infrastructure. Reasonably arranging the configuration and control functions of energy facilities can significantly improve the efficiency of facilities and energy utilization and reduce costs. For enterprises, the increasingly high energy consumption costs are a development challenge faced by many enterprises. How to use high - tech information technology to build a safe, stable, reliable, economic, and efficient energy management system is of great significance for reducing enterprise costs and improving the market competitiveness of products.

APPLICATION SCENARIO

The energy management system can be widely applied to various energy - consuming places such as industrial enterprises, commercial buildings, and public buildings. It helps property owners comprehensively master energy - using information, identify unreasonable energy use, provide energy - saving optimization suggestions, and ultimately achieve safe, economical, and green energy use.

CUSTOMER  VALUE

Focus on "energy conservation, consumption reduction, cost savings, and efficiency improvement" for enterprises

The system provides targeted features to address the challenges of energy management work faced by enterprise management personnel at all levels, helping them build a modern energy management system.

TECHNICAL  CHARACTERISTICS

The system adopts the industry-leading technical architecture and R & D model. By building an open platform and developing professional applications, it creates an energy management system ecosystem.

PRODUCT CHARACTERISTICS

SYSTEM ARCHITECTURE-LOCAL DEPLOYMENT

Application management layer Adopting a service-oriented architecture and B/S (Browser/Server) architecture, it is responsible for collecting, processing, and storing energy consumption data, and providing users with various Web-based graphical data applications.

网络Network communication layer Through our company's DAQ communication management machine, various field buses are converted into network access to the local area network. It supports multiple serial ports and multiple network ports, as well as various standard protocols such as MODBUS, DL/T645, and MBus, and also supports secondary development of communication protocols. Field device layer Various metering devices installed on-site, such as electric meters, water meters, flow meters, etc., are connected through field buses to collect and monitor energy consumption data in real-time.

STSTEM   ARCHITECTURE--CLOUD   SERVICES

SYSTEM FUNCTION

SYSTEM FUNCTION

SYSTEM FUNCTION

PROJECT IMPLEMENTATION-KEY TECHNOLOGY

The renovation project adopts the latest intelligent sensors and wireless transmission technologies. It does not require meter replacement, power outage, or communication cable laying, and will not affect production.

Mechanical Water, Electricity, and Gas Energy Consumption Collection Plan

Electric energy meter data collection scheme

Pipeline non-destructive installation, water energy consumption collection plan

No metering instruments, power energy consumption data collection plan

SYETEM APPLICATION CASE

Project Overview: There are more than 40 unmanned substation boxes in the park, and hundreds of water meters, gas meters, and heat meters each. Management and operation and maintenance face huge challenges.

Owner's Demands:

1. Ensure power safety through the energy management system.

2. Effectively manage various energy consumption in the park and continuously reduce energy costs.

3. Improve the efficiency of operation and maintenance and management through the cloud platform.

Implementation plan: Connect all intelligent devices to the cloud platform through the fieldbus + fiber optic network. Managers can conduct mobile monitoring and management through browsers or apps. The platform monitors over a thousand various metering devices and more than 400,000 data points in total.  

SYETEM  APPLICATION  CASE

A commercial building in Qiantan, Shanghai

Project overview: It is a commercial and office complex with an area of over 200,000 square meters. There are various types of energy consumption and the consumption volume is large. Office users have high requirements for power quality.

Owner's demands: On the basis of ensuring the safe operation of the system, it is necessary to master the detailed classification and sub - classification of all energy consumption. This is convenient for continuous energy - saving and consumption - reduction activities. At the same time, high - quality energy supply should be provided to tenants.