Wind power systems for heat production, storage and supply of living buildings: Parameters of the powerful wind thermal stations

Figure 4.30,a,b illustrate heat losses versus living area of domestic buildings accordingly during a day and a heating season. Figure 4.30,c shows intensity     more...

Wind power systems for heat production, storage and supply of living buildings: Powerful multisectional wind thermal systems

Figures 4.28 and 4.29 show schemes of the powerful multisectional wind power system for heat supply with overland and underground locations of water heat accumulators.     more...

Wind power systems for heat production, storage and supply of living buildings: Powerful multisectional wind thermal systems

Figures 4.28 and 4.29 show schemes of the powerful multisectional wind power system for heat supply with overland and underground locations of water heat accumulators.     more...

Wind power systems for heat production, storage and supply of living buildings: Economical parameters of the small wind thermal stations

Figures 4.27,a,b illustrate accordingly volume and cost of saved natural gas when using wind power system for heat supply versus living area of buildings.     more...

Wind power systems for heat production, storage and supply of living buildings: Parameters of the small wind thermal stations Part 2

Table 4.2 gives assessment of parameters for small wind power systems and traditional gas heating systems at the next initial data: area of domestic building is     more...

Wind power systems for heat production, storage and supply of living buildings: Parameters of the small wind thermal stations

Table 4.2 gives assessment of parameters for small wind power systems and traditional gas heating systems at the next initial data: area of domestic building is     more...

Wind power systems for heat production, storage and supply of living buildings: Autonomous small wind thermal station combined with a gas boiler

Figure 4.22 shows schematic for small wind power station with underground location of thermal storage accumulator. It consists of wind power turbine (а) and a thermal accumulator (b).     more...

Wind power systems for heat production, storage and supply of living buildings: Autonomous small wind thermal station

Figure 4.22 shows schematic for small wind power station with underground location of thermal storage accumulator. It consists of wind power turbine (а) and a thermal accumulator (b).     more...

Construction and action of wind power system for heat production, storage and supply: The heat accumulator

Thermal accumulator (Thermal storage) is an insulated container with the working fluid, which is characterized by high temperature of boiling, high heat capacity and/or large enthalpy of phase transition. In a simplified case     more...

Construction and action of wind power system for heat production, storage and supply with underground location of water thermal accumulator

Figure 4.21 shows schematic of autonomous wind thermal power plant with underground location of water thermal accumulator. It includes a wind power turbine (a) and multisectional thermal accumulator of underground location (b).     more...
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In The News

"The Basic Element of Solar Power Technologies: Thermal Storage"

The goals for these thermal storage R&D projects include developing advanced heat-transfer fluids and thermal storage systems, developing thermal-storage materials and systems to reduce storage costs, and integrating thermal storage
2011-04-21 18:27:02