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we enable green, smart and low-energy buildings!

Based on the different features of urban complexes, hospital, hotels, traffic hubs and other buildings, we can perform resource analysis depending on actual circumstances and make quantitative screening to energy utilization technology, energy-saving technology and storage and recovery technology to allow full integration between solar energy, shallow geothermal energy and other renewable resources and gas, power and other traditional forms of energy. The efficient integration among gas multi-generation technology, ground/water source heat pump technology, ice/water energy storage technology and condensed heat recovery technology, and the seamless connection between independently developed energy-efficient products and the said four technologies, so as to meet various safe, efficient and low-cost building energy utilization demands through a multidimensional collaboration of technology, control and management.

This detailed service covers preparation of project proposal and feasibility study report, preliminary design, construction drawing design, project agent-construction management, system debugging, putting into operation and other services.

Zhuzhou Shennong City project Zhuzhou, Hunan

Project background: Zhuzhou Shennong City is a large urban building complex integrating commerce, trade, travel, leisure and culture and hosts such businesses as Wal-Mart supermarket, Meimei mall, grand theatres and an art center, commercial pedestrian streets, hotels and apartments, and has air conditioning covering 420,000m2.

The value to be created for customers:
Making use of environmental potential energy as much as possible (utilization rate: 37.57%) so that the operating cost is reduced by 10.88% compared with that of conventional systems.
The energy annually saved by this system converted into standard coal would be 4,122.1t, with a system energy-saving rate of 22.95% and a carbon emission reduction rate of 22.95% compared with conventional energy systems composed of simple conventional water-cooled chillers + boilers.
ENN Ubiquitous Energy-efficient platform will be used to control the systems operation, effectively eliminating energy supply delay and improving the comfort of customers.
Application of distributed cooling, heat and power cogeneration technology, water/ground source heat pump and other clean energy technologies brings the project a demonstrative effect, which effectively promotes and popularizes the ENN brand and its reputation.

Tinghu Hospital project Tinghu District, Yancheng City, Jiangsu

floor area around 1,000m2
Technical route:
we enable the energy center which consists of a gas turbine generator, direct combustion unit, waste heat steam boiler and ground source heat pump unit to meet the cooling and heating load demands of all air conditioners, all steam load demands and all domestic hot water and partial domestic hot water demands within the energy supply area of the hospital in new Tinghu District.
Emission reduction:
Annual average comprehensive energy utilization ratio is 83.7%.
Renewable resource utilization rate reaches about 20%.
The standard coal annually saved is 2,832t.
Annual CO2 emission reduction is 2,672t.
Annual SO2 emission reduction is 68t.
Annual emission reduction of ash residue is 972t.

energy saving technology building of Chinese Academy of Engineering Beijing

Functional layout: office, exhibition room, lecture hall, catering, garage, equipment room and other functions covering a total area of 22,883m2.
providing design, planning and construction for energy utilization.
Emission reduction:
comprehensively use advanced energy technology to improve energy efficiency and reduce emissions. Compared with conventional energy supply modes: The total energy saving rate is 77.3%.
The energy saving rate of the air conditioning system is 23.66%.
The electric quantity saved annually is about 340,000KWh.
The water saved annually is 6,900t.
The standard coal saved annually is 112.2t.
The annual CO2 emission reduction is 265.2t.

Huanghua Air Port project of Changsha, Hunan Changsha, Hunan

above-ground buildings covering 110,400m2 and underground buildings covering 43,900m2.
Project content:
investment and construction are made in coordination with the construction project of the T3 airport terminal at Huanghua Airport in Changsha to meet heat supply, cold supply and partial power supply demands in the new airport terminal.
Emission reduction compared with conventional energy supply modes:
The energy-saving rate of the whole system is 33%.
The primary energy consumption reduced annually converted into the standard coal is about 1,527t.
The CO2 emission reduction is about 3,807t.