CN103244355A - Superhigh-rise distributed energy source system - Google Patents

Abstract

The invention discloses a superhigh-rise distributed energy source system which comprises at least two energy source components distributed in a step manner. Each energy source component comprises an energy source supplier, an energy source collector, an energy source storage device and an energy source output device, wherein the energy source supplier comprises a gas combusting chamber, a power generator and an air compressor which are independent to one another; a temperature sensor and a humidity sensor are installed on the energy source collector, a heat conduction connecting pipe is arranged on the energy source collector and is connected with the energy source storage device, a first connecting pipe used for being connecting with a floor heater, a second connecting pipe used for being connected with cold and hot water, and a third connecting pipe used for being connected with an air feed system are installed at one end of the energy source output device, and valves are installed on the energy source storage device and the first, second and third connecting pipes. The superhigh-rise distributed energy source system can supply energy sources step by step, is reasonable in energy source utilization, low in loss and pollution and good in economical efficiency.

Description

A kind of superelevation layer distributed energy resource system

Technical field

The present invention relates to a kind of superelevation layer distributed energy resource system.

Background technique

Green building refers in the building Life cycle; energy saving to greatest extent; the water saving, energy-conservation, save land and material-saving; protect environment and economize on resources; for people provide healthy, use and usage space efficiently; rare along with the soil; superelevation layer dwelling house will become the main flow of Urban House; especially the core location of an inch of land is an inch of gold and have the zone of splendid view; selected high-rise building form, just selected advanced intellectuality, the open visual field; commanding satisfaction, these all are the glamours of superelevation layer dwelling house uniqueness.Certainly, there is certain defective in the superelevation layer in inhabitation, and the gardens area is little, and utilization rate is low, and energy utilization rate is low.

Summary of the invention

The technical problem that the present invention mainly solves provide the supply of a kind of energy ladder, reasonable utilization of energy, loss little, pollute less, the superelevation layer distributed energy resource system of flexible operation, good economy performance.

For solving the problems of the technologies described above, the technological scheme that the present invention adopts is: a kind of superelevation layer distributed energy resource system is provided, comprise: the power module of the stepped distribution of at least two covers, described power module comprises the energy supply device, the energy collection device, energy storage device and energy outputing device, described energy supply device comprises separate gas combustion chamber, generator and air compressor, be equiped with temperature inductor and humidity sensor on the described energy collection device, also being provided with heat conduction on the described energy collection device takes over, described heat conduction is taken over and is linked to each other with described energy storage device, described energy outputing device one end is equiped with for first adapter that connects floor heating, being used for connecting second of hot and cold water takes over and the 3rd adapter that is used for being connected supply air system, described energy storage device, first takes over, second adapter and the 3rd is taken over and all is provided with valve.

In a preferred embodiment of the present invention, described generator is by wind energy or Driven by Solar Energy.

In a preferred embodiment of the present invention, described air compressor is driven by wind energy or electric energy.

In a preferred embodiment of the present invention, described energy storage device is provided with the controller for the input and output of the control energy.

In a preferred embodiment of the present invention, be equiped with pressure gauge, modulating valve and start and stop valve on the described energy supply device.

The invention has the beneficial effects as follows: superelevation layer distributed energy resource system energy ladder of the present invention supply, reasonable utilization of energy, loss be little, pollute less, flexible operation, good economy performance.

Description of drawings

Fig. 1 is the structural representation of superelevation layer distributed energy resource system of the present invention one preferred embodiment;

The mark of each parts is as follows in the accompanying drawing: 1, energy supply device; 11, gas combustion chamber; 12, generator; 13, air compressor; 14, pressure gauge; 15, modulating valve; 16, start and stop valve; 2, energy collection device; 21, temperature inductor; 22, humidity sensor; 23, heat conduction is taken over; 3, energy storage device; 4, energy outputing device; 41, first take over; 42, second take over; 43, the 3rd take over.

Embodiment

Below in conjunction with accompanying drawing preferred embodiment of the present invention is described in detail, thereby so that advantages and features of the invention can be easier to be it will be appreciated by those skilled in the art that protection scope of the present invention is made more explicit defining.

See also Fig. 1, a kind of superelevation layer distributed energy resource system, comprise: the power module of the stepped distribution of three covers, the 15th building at 45 floor superelevation floor dwelling house, the 30th building and the 45th building, power module of difference stage shape distribution, described power module comprises energy supply device 1, energy collection device 2, energy storage device 3 and energy outputing device 4, described energy supply device 1 comprises separate gas combustion chamber 11, generator 12 and air compressor 13, be equiped with temperature inductor 21 and humidity sensor 22 on the described energy collection device 2, also be provided with heat conduction on the described energy collection device 2 and take over 23, described heat conduction is taken over 23 and is linked to each other with described energy storage device 3, described energy outputing device 4 one ends are equiped with for first adapter 41 that connects floor heating, be used for connecting second adapter 42 and the 3rd adapter 43 that is used for being connected supply air system, described energy storage device 3 of hot and cold water, first takes over 41, second adapter the 42 and the 3rd is taken on 43 and all is provided with valve 5.

First takes over 41 1 ends is connected energy outputing device 4, the other end links to each other with the floor heating of a plurality of floors respectively, equally, it also is that an end links to each other with energy outputing device 4 that second adapter 42 and the 3rd takes over 43, the other end links to each other with supply air system with the hot and cold water of a plurality of floors, when temperature inductor 21 perceives superelevation layer exterior wall, when room temperature surpasses setting value, superelevation layer exterior wall or indoor air can take over 23 by heat conduction, excess energy is transferred to energy storage device 3 stores, otherwise, when temperature inductor 21 perceives superelevation layer exterior wall, when room temperature is lower than setting value, energy storage device 3 can be incubated processing for superelevation layer exterior wall or indoor air by the transmission heat, to improve room temperature.When humidity sensor 22 perceives superelevation layer exterior wall, room temperature above setting value, water vapour content by the 3rd adapter 43 in the supply air system can suitably reduce, otherwise, when humidity sensor 22 perceive superelevation layer exterior wall, when room temperature is lower than setting value, water vapour content by the 3rd adapter 43 in the supply air system can suitably increase, to improve the humidity of indoor air.

The floor heating in the power module priority of supply 1-15 building in the 15th building, air-supply and cold and hot water supply system, secondly also provide energy support for the 16-30 layer, the floor heating in the power module priority of supply 15-30 building in the 30th building, air-supply and cold and hot water supply system, secondly also provide energy support for the 30-45 layer, the floor heating in the power module priority of supply 30-45 building in the 45th building, air-supply and cold and hot water supply system, secondly also provide energy support for the 16-30 layer, three cover power modules are separate, the method of supplying of stepped distribution, get final product independent operating, also can be incorporated into the power networks, reach the energy, the maximization of environmental benefit, various energy resources demand with the user, the configuration state of resource carries out system combination, distributing energy-provision way with traditional concentrated energy supply, adopted the novel energy distribution system of the design of demand reply formula and modular arrangements, reasonable utilization of energy, loss is little, pollute few, flexible operation, good economy performance.

In addition, described generator 12 is by wind energy or Driven by Solar Energy, and the heat that generator 12 produces is stored in the energy storage device 3.

In addition, described air compressor 13 is driven by wind energy or electric energy, and the heat that air compressor 13 produces is stored in the energy storage device 3.

In addition, described energy storage device 3 is provided with the controller 31 for the input and output of the control energy, give 31 1 setting values of controller in advance, when the user had the demand of floor heating, air-supply or cold and hot water supply system, controller 31 can input or output supply according to setting value.

In addition, be equiped with pressure gauge 14, modulating valve 15 and start and stop valve 16 on the described energy supply device 1, be used for control energy supply device 1.

Superelevation layer distributed energy resource system of the present invention realized the supply of energy ladder, and comprehensive utilization of resources and renewable energy sources facility, by at the demand scene according to the different demands of user to the energy, realize independent supply energy source, the loss of conveying process is down to minimum, thereby realize the maximization of using energy source usefulness.

Be different from prior art, superelevation layer distributed energy resource system reasonable utilization of energy of the present invention, loss be little, pollute less, flexible operation, good economy performance.

The above only is embodiments of the invention; be not so limit claim of the present invention; every equivalent structure or equivalent flow process conversion that utilizes specification of the present invention and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present invention.

Claims (5)

1. superelevation layer distributed energy resource system, it is characterized in that, comprise: the power module of the stepped distribution of at least two covers, described power module comprises the energy supply device, the energy collection device, energy storage device and energy outputing device, described energy supply device comprises separate gas combustion chamber, generator and air compressor, be equiped with temperature inductor and humidity sensor on the described energy collection device, also being provided with heat conduction on the described energy collection device takes over, described heat conduction is taken over and is linked to each other with described energy storage device, described energy outputing device one end is equiped with for first adapter that connects floor heating, being used for connecting second of hot and cold water takes over and the 3rd adapter that is used for being connected supply air system, described energy storage device, first takes over, second adapter and the 3rd is taken over and all is provided with valve.

2. superelevation layer distributed energy resource system according to claim 1 is characterized in that described generator is by wind energy or Driven by Solar Energy.

3. superelevation layer distributed energy resource system according to claim 1 is characterized in that, described air compressor is driven by wind energy or electric energy.

4. superelevation layer distributed energy resource system according to claim 1 is characterized in that, described energy storage device is provided with the controller for the input and output of the control energy.

5. superelevation layer distributed energy resource system according to claim 1 is characterized in that, is equiped with pressure gauge, modulating valve and start and stop valve on the described energy supply device.

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