Ultra-low energy consumption building energy storage equipment
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The Ultimate Guide to Zero Energy Building Design
Advanced Energy Storage Solutions: Innovations like solid-state batteries and thermal storage systems enable efficient storage and use of renewable energy. Smart Grids:
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Thermal & Electrical Energy Storage in Ultra-Low Energy Buildings
Development of Sustainable Energy Storage Designs for a variety of ultra-low energy buildings using thermal, phase change materials and electrical storage options.
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Multi-Objective Optimization of Ultra-Low Energy
This paper proposes an optimization method combining meta-models to investigate the carbon reduction potential of ultra-low energy buildings in severely cold regions of China.
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Multi-Objective Optimization of Ultra-Low Energy Consumption Buildings
To vigorously promote ultra-low and net-zero energy consumption buildings, the Ministry of Housing and Urban-Rural Development (MOHURD) of China issued the "Passive
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Innovative solutions for low carbon cities: Case Study of
⮚ Gradually shift to a dual control of energy intensity and total energy consumption in buildings that is guided by actual operational results. ⮚ Progressively exploring high-performance, low
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Meet the Company Making Ice the Future of Energy Storage: Ice Energy
4 days ago· Based in Southern California, Ice Energy is a leading innovator in thermal energy storage technology. The company''s flagship product, the Ice Bear, transforms traditional air
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Low-Cost and High-Performance Modular Thermal Energy
The University of Maryland (UMD) and Lennox International Inc. have teamed up to create a flexible plug-and-play thermal energy storage system (TES) for residential homes that
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Multi-Objective Optimization of Ultra-Low Energy
Occupant behavior has an important impact on building energy consumption, and the accuracy of an occupant behavior model directly affects
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Uncertainty analysis and performance optimization of ultra-low energy
Bamboo roof thickness and conductivity were identified as the most sensitive factors influencing energy consumption and carbon emissions. These findings can address gaps in operational
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Feasibility and performance study on hybrid air source
This paper proposes an innovative hybrid energy system of "solar air collector + air source heat pump + energy storage" that is utilized to save energy for ultra-low energy
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Energy Codes for Ultra-Low-Energy Buildings: A Critical
Building on these recent improvements to achieve greater energy efficiency and, ultimately, ultra-low-energy code requirements will be challenging if not impossible, given the current design
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Unlocking Ultra-Low Energy Performance
A review of completed ultra-low energy building (ULEB) retrofit projects demonstrates that deep energy savings are technically feasible. These projects show which approaches are being
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Meet the Company Making Ice the Future of Energy Storage: Ice
4 days ago· Based in Southern California, Ice Energy is a leading innovator in thermal energy storage technology. The company''s flagship product, the Ice Bear, transforms traditional air
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Low-Cost and High-Performance Modular Thermal Energy Storage
The University of Maryland (UMD) and Lennox International Inc. have teamed up to create a flexible plug-and-play thermal energy storage system (TES) for residential homes that
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Cooler Buildings, Stronger Grid: A New Approach to Air
Built-In Storage That Supports the Grid By shifting energy use away from peak periods, ESEAC eases demand on the electric grid, helping utilities flatten demand curves and
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Applying Energy Storage in Ultra-low Energy Buildings
Thermal energy storage based on phase change materials (PCMs) can improve the efficiency of energy utilization by eliminating the mismatch between energy supply and demand.
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Energy-Saving Design Strategies for Industrial
Countries around the world have developed standards for ultra-low energy consumption building design and future plans. Unfortunately, these
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Architect''s Guide to Ultra-Low-Energy Buildings, Microgrids,
This comprehensive guide, developed by Phius with funding provided by the AIA Upjohn Research Initiative grant, was prepared to assist architects (and other building
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Towards ultra-low energy consumption buildings: Implementation
Then, a set of strategic models for the construction of implementation paths for ultra-low energy consumption buildings that can be promoted in different climatic areas and building
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Multi-Objective Optimization of Ultra-Low Energy
Considering Life Cycle Performance. Abstract: Net-zero energy buildings (NZEB) have received widespread attention for their excellent energy and carbon reduction potential in various
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Applying Energy Storage in Ultra-low Energy
Thermal energy storage based on phase change materials (PCMs) can improve the efficiency of energy utilization by eliminating the mismatch
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Low Energy Buildings
This site provides information on design concepts to achieve low energy building designs through application of the Integrated Building Design (IBD) process. The principal focus of the site is on
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Architect''s Guide to Ultra-Low-Energy Buildings,
This comprehensive guide, developed by Phius with funding provided by the AIA Upjohn Research Initiative grant, was prepared to assist
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A review of research on ultra-low energy consumption buildings
The existing ultra-low energy consumption building technologies are summarized and organized in this paper, and combined with relevant research content, further ideas are proposed to
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Towards ultra-low energy consumption buildings: Implementation
The operational state of energy-efficient ultra-low energy consumption buildings is very important to achieve energy savings and emission reductions, which are currently
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Analysis on night ventilation effect of buildings with different
The peak indoor temperature of the two types of buildings decreases with the increase of natural ventilation time at night. Both ultra-low energy consumption buildings and conventional energy
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What are ultra-low energy consumption buildings?
Among them, ultra-low energy consumption buildings (ULEBs) have become representative of efforts to balance the service demand and the need for energy self-sufficiency (Ohene et al., 2022). In 1976, the concept of zero-energy consumption buildings (ZEBs) was first proposed by Esbensen (Danish Technical University) (Wilberforce et al., 2021).
Why is the operational state of energy-efficient ultra-low energy consumption buildings important?
The operational state of energy-efficient ultra-low energy consumption buildings is very important to achieve energy savings and emission reductions, which are currently necessary considerations for the development of the building industry.
Can ultra-low energy consumption be implemented at different energy consumption levels?
To date, studies on the implementation of ultra-low energy consumption have been based mainly on the analysis of the effects of certain technologies, and few studies have examined the regional implementation paths at different energy consumption levels.
How can ulebs reduce energy consumption?
To further reduce energy consumption, it is necessary to increase the application of renewable energy technologies, such as solar, wind, heat pumps and other forms, to provide part of the energy and create an implementation path for ULEBs based on the status quo.
What is a building subentry energy consumption?
According to the Chinese Building Industry Standard JGJ/T285–2014 (JGJ/T285-2014), building subentry energy consumption should be divided into four items: including lighting system, HVAC system, power system and others system.
Can ulebs be realized only by the application of existing energy-saving technologies?
The comprehensive application of existing energy-saving technologies indicates that the minimum EUI of conventional buildings in HSCW areas is 38.43 kWh/ (m 2.a), while the energy consumption target value in these areas is 29.04 kWh/ (m 2.a). This shows that ULEBs cannot be realized only by the application of existing active technologies.
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