Innovative high-rise buildings are built instead of morally and physically obsolete houses, where non-traditional renewable energy sources are used to the fullest extent, under the effect of which they are located. The possibility to use solar systems with variation of
The results show that the maximum energy produced by solar panels is 248.42 W, and the maximum electrical efficiency of the photovoltaic
Here, the overall objective striven for is to introduce solar energy as a permanent renewable source in order to reduce energy consumption and building initial investment.
The results show that the maximum energy produced by solar panels is 248.42 W, and the maximum electrical efficiency of the photovoltaic module is 17.61% at a solar irradiance of 1000 W m−2.
• This study reviews the recent literature about the solar passive strategies and active technologies in high-rise buildings. • It illustrates the effectiveness of benefiting solar energy. • It introduces solar energy as a substitute source of energy in high-rise buildings.
It is established that solar systems have high technical potential. The share of heat load, that is provided by using solar energy, varies from 4 to
In case of high density (high rise buildings catering for elevated number of residents), distributed systems are implemented, which are basically installing solar technology on the balconies and
Highlights • This study reviews the recent literature about the solar passive strategies and active technologies in high-rise buildings. • It illustrates the effectiveness of
Here, the overall objective striven for is to introduce solar energy as a permanent renewable source in order to reduce energy consumption and building initial investment.
Highlights • Examined feasibility of solar-powered net-zero energy high-rise buildings. • The maximum permitted EUI by net-zero energy status is 17–28 kWh/m 2. •
The purpose of the paper is to evaluate the shadow impact factor of buildings on building-integrated photovoltaic (BIPV) system efficiency and to determine optimal building configurations: shapes and orientation; to ensure BIPV efficiency based on
The purpose of the paper is to evaluate the shadow impact factor of buildings on building-integrated photovoltaic (BIPV) system efficiency and to determine optimal building
Learn how EvoEnergy installed solar panels on The South Bank Tower, one of central London''s tallest buildings enhancing its sustainability and energy efficiency.
It is established that solar systems have high technical potential. The share of heat load, that is provided by using solar energy, varies from 4 to 84% depending on the time of the year.
Highlights • This study reviews the recent literature about the solar passive strategies and active technologies in high-rise buildings. • It illustrates the effectiveness of benefiting solar energy. • It introduces solar energy as a
In case of high density (high rise buildings catering for elevated number of residents), distributed systems are implemented, which are basically installing solar technology on the balconies and the walls, provided that they have the proper orientation
Highlights • Examined feasibility of solar-powered net-zero energy high-rise buildings. • The maximum permitted EUI by net-zero energy status is 17–28 kWh/m 2. • Meeting this EUI is harder than most stringent building codes. • Taller the building, harder it becomes to achieve net-zero energy status. •
Learn how EvoEnergy installed solar panels on The South Bank Tower, one of central London''s tallest buildings enhancing its sustainability and energy
Innovative high-rise buildings are built instead of morally and physically obsolete houses, where non-traditional renewable energy sources are used to the fullest extent, under the effect of
As urban areas become more populated and densified, it becomes more important to have low-energy high-rise buildings with minimal GHG emissions. On this account, this study evaluates the feasibility of achieving net-zero energy performance by employing solar energy in high-rise buildings in North America.
Finally, high-rise buildings have great potential to gain solar radiations because of their vast facades. Analyzing case studies illustrate that applying solar passive strategies in high-rise buildings have a meaningful effect on reducing the total annual cooling and heating energy demand.
Innovative high-rise buildings are built instead of morally and physically obsolete houses, where non-traditional renewable energy sources are used to the fullest extent, under the effect of which they are located. The possibility to use solar systems with variation of their design parameters is considered.
Examined feasibility of solar-powered net-zero energy high-rise buildings. The maximum permitted EUI by net-zero energy status is 17–28 kWh/m 2. Meeting this EUI is harder than most stringent building codes. Taller the building, harder it becomes to achieve net-zero energy status. Building orientation impacts maximum permitted EUI.
Solar water heating system integrated design in high-rise apartment in China. Energy and Buildings 58 (2013), pp. 19-26. • Chow, T. et al. (5 March 2005). Potential application of a centralized solar water – heating system for high-rise residential building in Hong Kong.
For instance, to meet the building heating demand, three paths are available: 1. direct use of solar heat generated through a thermal collector, 2. conversion of solar electricity to heat in an electric-resistance heater, and 3. running a heat pump using the solar electricity. The same three paths are available for Domestic Hot Water (DHW). Fig. 2.
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