Whole Lifecycle Management Concept
Recycling of natural resources, proper maintenance, cost reduction and efficiency improvement;
Intelligent Monitoring and Early Warning
An energy management system is set up to automatically monitor and issue early warnings for key equipment parameters such as temperature, noise, and pressure, enabling early fault identification and intervention;
Reduces reliance on manual inspections, lowers the risk of human misjudgment, and effectively extends equipment service life.
Reuse of Old Equipment
Reasonable renovation of old equipment to achieve secondary utilization and improve resource utilization rate.
Water for Food Raw Materials
Raw material water is sourced from local reservoirs, and preheating technology is adopted to achieve energy conservation and full utilization of water resources.
Factory Cooling Water
The factory is equipped with a water cooling system that uses natural river water for cooling operations, relying on natural water resources to reduce energy consumption.
Solar Energy Utilization
Through the light guide system of windows and atrium curtain wall roofs, efficient natural lighting is achieved during the day, and almost no artificial lighting is required for daily production.
Electrical Energy Utilization
Utilizes photovoltaic power generation to produce clean energy independently, reducing reliance on fossil energy.
Thermal Energy Utilization
Optimized design of the steam system, with professional insulation treatment for pipelines and equipment, significantly reducing heat loss and improving thermal energy utilization efficiency.
Kinetic Energy Utilization
Adopts high-efficiency transmission systems to reduce unnecessary steering; optimizes equipment start-stop logic to lower equipment idling rate and improve kinetic energy utilization efficiency.
Building Material: UHPC (Ultra-High Performance Concrete)
The park wall adopts this material, which has high durability with a service life of over 30 years, requires almost no maintenance, and significantly reduces long-term energy consumption and maintenance resource input.
Building Material: PTFE Fiberglass Membrane Structure
The building facade adopts this material with a natural light transmittance of about 25%, which can effectively shield ultraviolet rays, sand and dust, reduce external erosion to the building, and delay wall aging;
It has high durability with a service life of over 30 years and excellent self-cleaning performance, reducing building maintenance costs.
Containers: Bottle Recycling and Reuse
Unified collection, cleaning and reuse of bottling containers, greatly reducing the usage rate of disposable containers.
Packaging Materials: Sustainable Design
The finished product outer packaging adopts an easily separable sustainable design to achieve friendly recycling and circular utilization of packaging materials.
1 Combine the roof exhaust system with the heat generated during food production to form a "bottom-in and top-out" natural ventilation and heat emission structure
2 Solar power generation to produce clean energy independently
3 Reduce food waste and cut down resource consumption
4 Promote the construction of a bottle recycling and circulation system
5 Optimize packing rate and pallet utilization rate to improve logistics efficiency
6 Prioritize sea/rail transportation over air transportation to reduce carbon emissions
7 Digital office system to reduce the use of paper documents
8 Natural lighting design of buildings to reduce lighting energy consumption
1 The park's drainage system uses stainless steel floor drains and all stainless steel sewage pipes, with comprehensive optimization from design, construction to detailed processes
2 The main drainage pipe is reinforced with piles before embedding to avoid interface cracking caused by settlement and prevent leakage and soil pollution
3 The inner wall of the main and branch pipes remains smooth and burr-free after welding, reducing dirt accumulation and cleaning dead corners, and eliminating the risk of odor and bacterial growth from the source
4 For lawn maintenance in the park, herbicides are not used, and all maintenance is done manually by employees to avoid pollution to land and the environment
1 Closed-loop management from generation, treatment to discharge, with full process controllable and traceable
2 Stable discharge up to standard to ensure safety to the surrounding water environment
3 Abnormal early warning and emergency response mechanisms to avoid environmental incidents
1 Reduction and recyclable design of packaging materials to reduce waste generation from the source
2 Classification and standardized management to reduce the risk of secondary pollution
3 Disposal in accordance with laws and regulations to ensure clear and traceable waste flow
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