HKT Smart Park Solution: Create a Green and Efficient Energy Consumption Management and Control Plat

HKT Smart Park Solution: Create a Green and Efficient Energy Consumption Management and Control Platform


With the release of the “Action Plan for Carbon Dioxide Peaking Before 2030” issued by the State Council, it is proposed to speed up the green and low-carbon revolution, carry out the construction of carbon peaking pilot parks, and incorporate carbon neutrality and emission peak into the economic and social development target system. The construction process of smart parks and smart buildings has been significantly accelerated.

Doing a good job in the energy consumption management and control of buildings in the park is an important task for carbon emission reduction in the smart park. In traditional smart parks, the energy consumption management and control methods of buildings are too simple. Most parks are limited to energy consumption monitoring, cannot achieve centralized energy consumption distribution, and are difficult to improve energy consumption utilization. How to quantify the energy consumption and emissions of each scene and time period in the park buildings, improve energy utilization, and use more refined management methods to implement energy conservation and emission reduction work have become the core issues that need to be considered in the construction of smart parks.

Digital twin enables refined management and control of park buildings

The HKT smart park solution combines core technologies such as the Internet of Things, artificial intelligence, and big data with energy consumption management to create a multi-platform and multi-scenario integrated energy management platform, covering building security, access control, fire protection, environment, lighting, Electricity, parking and other functions, and applied to different stages of new construction, expansion or reconstruction of industrial parks, office buildings, commercial complexes, stadiums, hospitals, industrial buildings, residential quarters, etc. Through the intelligent transformation of the facilities and equipment in the building, the development goal of a zero-carbon park that can be monitored, adjusted and queried for building energy consumption is realized.

Urban information model + Internet of Things system to find out the energy consumption distribution of building

The plan uses the people, objects, equipment and environment in the park building as the “individuals” generated by energy consumption data, and uses intelligent equipment such as temperature and humidity sensors, smart air conditioners, etc., to calculate the energy consumption, carbon emissions, etc. The data is aggregated to the platform for real-time visual display, and the energy consumption data by time period and region is analyzed and processed to provide data support for the energy consumption strategy of the park operator. Through remote control, the intelligent terminal equipment in the building is controlled in a refined manner, so as to realize the reasonable distribution of energy, grasp the energy consumption of the building in real time, gain insight into the energy flow, and truly achieve the energy saving and emission reduction of the buildings in the park.

Energy consumption perception

The intelligent terminal equipment in the building is used to monitor the energy consumption data in the building, and the data of each link is aggregated into the platform, so that the energy consumption data of all scenarios can be interconnected, forming a heat map of energy consumption and realizing accurate inventory.

Energy Consumption Optimization

Through in-depth analysis of energy consumption data, the system can accurately predict the energy consumption patterns of different scenarios inside the building at different time periods, provide data basis for the operator’s energy consumption allocation strategy, and dynamically interpret the carbon peak and carbon neutral path.

Energy Consumption Reduction

While the system optimizes energy consumption methods, it introduces smarter and more environmentally friendly terminal equipment to renovate the facilities and equipment of the building, strengthens education on energy conservation and emission reduction for all personnel in the park, and adopts a multi-pronged approach to improve energy consumption and reduce energy waste.

As a space carrier for talents and industries to gather, the buildings in the park can be smarter and greener through intelligent and digital management and control. Relying on digital twin technology, the system centrally displays the overall picture of the building and the overall situation of energy consumption, and converts all the energy consumption generated by the daily operation of the park into data, conducts accurate statistics, and draws a “portrait” of energy consumption that is unique to the park. In this way, more targeted energy consumption suggestions are given to create a “safe, efficient, green, and comfortable” smart park, and realize a complete closed loop of energy conservation and emission reduction in the smart park from monitoring, early warning, decision-making to implementation.

In addition, the construction of the smart park can help the park management open up the data of various business segments, eliminate data silos, and support the visualization and analysis of the park data according to time and space dimensions to meet the needs of real-time monitoring, historical playback and simulation projection of the whole elements of building operation including energy consumption and emission, so as to realize comprehensive perception and comprehensive research and judgment of the park situation. At the same time, it can strengthen data integration across business systems, realize all-round monitoring of various operation fields in the park, and improve public service efficiency.

Building intelligent application scenarios

Provide intelligent settings for the corresponding scenes of the buildings in the park. According to different scenes, the corresponding intelligent mode can be activated and controlled with one touch.

Meeting room

One-click to turn on lights, projectors, air conditioners, etc., and prepare the presentation environment in advance. After the meeting, if you forget to turn off the lights or other equipment, you can also use the monitoring equipment to automatically turn off all equipment in the conference room to achieve energy saving and emission reduction.


Through the intelligent management and control system, multi-dimensional environmental parameters such as temperature and humidity, light intensity and air quality of the building can be monitored in real time. Realize the linkage adjustment of equipment, automatically control the indoor environment, and create a comfortable working environment for the staff in the building, which not only ensures human comfort but also achieves the effect of carbon reduction and emission reduction.


The dining time can be customized, and the ultraviolet sterilization equipment is automatically turned on during non-dining time or when it is not used for other party activities, and the restaurant canteen is fully disinfected to ensure the hygiene of the dining environment. At the same time, unnecessary lighting equipment can be automatically turned off to reduce energy consumption.

Stairway passage

For public places such as staircase passages, the goal of enhancing inter connectivity and low-carbon environmental protection is enhanced through smart sensing. The system can intelligently adjust the light intensity of the site, air humidity, etc., to achieve intelligent management of low-carbon spaces.

Elevator machine room

The platform conducts centralized dynamic monitoring and management of each indicator, observes changes in electricity consumption at all times, and prevents various energy consumption increases due to negligence in management.


Tags :
Share This :
Get Quote