is there a large indoor energy storage space

Sharing indoor space: stakeholders'' perspectives and energy …

energy metrics Nicolas Francart1, Mattias Höjer2, Kristina Mjörnell3, Allanmikel Sargon Orahim4, Jenny von Platten5 and Tove Malmqvist6 Abstract The sharing of indoor space can improve space and energy efficiency. The drivers and barriers to …

Best Ways To Heat Large Spaces (Indoor Heating Options)

In general, the most common ways to heat large spaces include: Forced-air heating systems, use a network of ducts to distribute the heated air throughout the space. Radiant heating systems, use radiant heat to warm the space directly, without the need for ducts. Boilers, use heated water or steam to warm the space.

Simulation of heavy gas dispersion in a large indoor space using …

Furthermore, the CFD model performance in predicting heavy gas dispersion in a large indoor environment with various obstacles is not well known, as existing simulation studies were carried out under simple configurations with few or no obstacles ( Ricciardi et al., 2008, Tauseef et al., 2011, Xing et al., 2013 ).

Indoor Air Quality in Buildings: A Comprehensive Review on the …

Simultaneous measurement of 20 VOCs in both indoor and outdoor spaces revealed that for a majority of the compounds, the median levels were considerably higher than those in outdoor spaces. Later in 2017, assessment of the same sampling size (567 dwellings) in mainland France was conducted to observe the relationship between …

Indoor thermal stratification and its statistical distribution

It occurs in indoor environment situations including large warehouse-type buildings, buoyancy-driven ventilated spaces with displacement, underfloor ventilation, and/or natural ventilation, and enclosure fires with hot smoke layer on top of cold air layer.

Influence of envelope, structural thermal mass and indoor content on the building heating energy …

Latent heat thermal energy storage (LHTES) can be integrated in the inner surfaces of the indoor space in order to increase the thermal inertia of light structure buildings. Some researchers demonstrated the benefit of PCM wallboards and PCM UFH for space heating load shifting with set point temperature modulation control [12], [13] .

Zonal modelling for thermal and energy performance of large space buildings…

As a result, the indoor environment of large spaces differs from that of general buildings because of intense solar radiation and high-temperature inner surfaces. Zhao et al. [ 28 ] reported that the solar intensity reaching the floor surface ranged from 120 to 170 W/m 2 in Xi''an Airport, West China, while the outdoor solar radiation was 500–750 …

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