CN101387460A - Solar and superficial layer geoenergy complementary construction energy utilization method - Google Patents

Abstract

The invention provides a method for utilizing the complementary energy of solar and shallow ground heat energy in buildings. The method does not consume the prior power source to directly utilize low-grade energy for the heating and cooling of the buildings. The system directly conveys low-grade energy meeting the requirement to the tail end for realizing the direct utilization of the low-grade energy, further adopts a heat exchanger to correctly exchange heat with the low-grade energy for achieving the temperature set by the system, and utilizes a heat transfer fluid to convey the heat energy to end equipment which releases the heat energy, thereby realizing the direct utilization of the low-grade heat energy.

Description

Heat energy complementary building energy in a kind of solar and superficial layer face of land is utilized method

Technical field

The present invention relates to heat energy utilization, belong to renewable energy utilization, particularly realization building heating, the refrigeration of the complementation of solar and superficial layer face of land heat energy.

Background technology

How low-grade energy effectively utilizes, existing Technology Need is utilizing traditional energy, low-grade energy is promoted, again low-grade energy is used, but this mode of utilizing all needs to consume traditional energy, as source, various ground and water source heat pump technology, need electric energy further to replenish, it is used.

Temperature control technology for building has a variety of, prior art mainly adopts the form that consumes a kind of energy, the temperature control that realizes building, the compression refrigeration technology of main consumed power, and other traditional energies of consumption of later stage development as the combustion gas Refrigeration Technique, mainly adopt fan coil and radiator at its end-equipment, and at present also utilize heating and the refrigeration of various pipelines for terminal device what adopt.Various absorptions and adsorptive refrigeration technology have also appearred in the appearance of solar energy acquisition technology, but these technology all include a kind of refrigeration plant at least, need to consume the temperature control that traditional energy could be realized building.

The existing system that relies on air conditioner refrigerating and boiler heating, the heating supply and return water temperature gets 95/70, air conditioning water gets 7/12, air conditioning hot gets 60/50, because air-conditioning is forced-convection heat transfer, so it does not need the excessive endways temperature difference, heating installation adopts 95/70, reason is that end does not have forced convertion, and chilled water must be set in below the apparatus dew point, and this just requires chilled water generally will be controlled under 12 degree.But water will freeze below 0 degree, can not be lower than 5 degree so set low temperature, has artificially stipulated 7/12 degree.Thereby the temperature difference of 5 degree are only arranged the time in refrigeration.Under summer worker's frame, indoor air temperature 25 degree, then the temperature difference of water and air is about 15 degree.And winter air temperature 18 degree, water is walked 60/50 operating mode, and the temperature difference of water and air is about 37 degree.Can not think that the wind dish exchange capability of heat in winter almost is the twice in summer so do not consider wet cooling condition.Therefore, from wind dish angle, to walk 30/25 such operating mode also be feasible to water when the most extreme.If adopt traditional boiler heat supplying, the ignition temperature of boiler own is looked different fuel and difference about the 500-1500 degree.Therefore if heat hot water about 40 degree with the flue gases of nearly thousand degree, heat exchange efficiency is too low, and the ability of boiler is wasted greatly, and this is uneconomic, designs according to 60/50 such operating mode usually.This has been the lowest limit of hot-water boiler, does not in most cases also accomplish, also will add heat exchanger.Such temperature also can be prevented antipriming pipe and equipment scaling simultaneously.The temperature difference of the end of existing system fan coil can realize the temperature-difference refrigerating and the heating of 15 degree, but because thermal source adopts the gap between boiler and the air-conditioning, caused and generally adopted high temperature difference to heat at present, owing to must adopt the heating of high temperature thereby the use radiator occur and carry out heat supply in winter, in fact, if adopt the blower fan heating, its exchange capability of heat can heat in the 15 degree temperature difference, if the indoor temperature that requires according to GB reaches 18 degree like this, adopt the water of 23 degree promptly can realize the heating in winter in the winter time, thereby provide the possibility of technology for utilizing regenerative resource directly to heat.

Development along with end technology, the energy source temperature that heating and refrigeration need and the temperature difference of environment temperature are more and more littler, as adopt traditional radiator to need the thermal source heated of 80-90 degree, after adopting the floor heating technology, the temperature of thermal source can be reduced to 40-60 degree, this makes solar heating become possibility, the capillary that later stage occurs, its heating temperature is 30-40 degree, its cryogenic temperature can adopt 10-20 degree, and the low-temperature receiver of traditional fan coil Technology Need 3-10 degree just may guarantee the cooling of building effect.The appearance of this end technology makes and directly utilizes low grade heat energy to become possibility.On the shallow layer surface heat energy utilization, the degree of depth of existing perpendicularly buried pipe is 60-100 meters, and this degree of depth is suitable for existing heat pump techniques, but because its temperature is in the scope of 15-20 degree substantially, can't be directly used in heating.

The appearance of new end-equipment makes provides the mode of the energy also can change, and must consume heating and the refrigeration that traditional energy can realize utilizing regenerative resource realization building till now by traditional.But solar absorption or the absorption type refrigerating that adopts all needs refrigeration unit at present, high and the conversion inefficiency of the present price of this equipment, absorb or adsorptive refrigeration technology as adopting for the thermal source that is lower than 100 degree, its COP value is 0.4-0.8, so also Lang Fei a large amount of heat energy, the technology that makes can't generally be promoted the use of.

Summary of the invention

Purpose of the present invention just provides the complementary building energy of a kind of solar and superficial layer face of land heat energy and utilizes method, does not need to consume traditional energy, just can realize low-grade heat source directly is used in building heating and refrigeration.This system is delivered directly to end with satisfactory low-grade energy, realize the direct utilization of low-grade energy, further can adopt a heat exchanger and low-grade energy to carry out correct heat exchange, reach the requirement of the temperature of default, utilize a kind of heat-transfer fluid that heat energy is transported to end-equipment then, end-equipment discharges heat energy, thereby realizes the direct utilization of low grade heat energy.This system adopts the temperature difference of spending with target temperature 5-15 to heat and freezes, and summer, low-temperature receiver was 11-21 degree, and winter, thermal source was 21-41 degree, realized the temperature of indoor 16-26 degree is controlled.Can directly utilize temperature like this is the low-grade heat source of 0-45 degree, realizes the direct heating and the refrigeration of building.In heating and process of refrigerastion, when if shallow layer surface heat energy can not provide the energy of composite demand, adopt solar energy to replenish, adopt solar refrigeration as a supplement in summer, adopt the heat energy of solar thermal utilization to replenish in the winter time, mainly adopt the main energy that is of shallow layer surface heat energy in summer, solar refrigeration is for replenishing, in the winter time based on shallow layer surface heat energy, solar energy is for replenishing, or is that main energy sources shallow layer surface heat energy is for replenishing with solar energy, but specifically how to carry out, need be according to geological condition, the pipe laying expense, the solar thermal utilization cost is taken all factors into consideration.Certainly the thermal source of higher temperature and more the low-temperature receiver of low temperature can directly utilize more, still be suitable for the present invention, but emphasis of the present invention is to adopt low-grade energy directly to heat and freeze.

Concrete summary of the invention is as follows:

Heat energy complementary building energy in a kind of solar and superficial layer face of land is utilized method, contain at least one shallow layer surface heat energy energy and at least one pipe end equipment, and at least one group of solar energy utilization system, directly the heat energy with the exchange of shallow layer surface thermal energy heat exchanger is transported on the end-equipment, realize building heating and/or refrigeration, when the heat energy of shallow layer surface can not satisfy requiring of building, adopt the solar energy system to replenish.

Also contain at least one shallow layer surface thermal energy heat exchanger and at least a fluid, hot fluid directly is transported to the heat energy of shallow layer surface thermal energy heat exchanger exchange on the end-equipment, when the heat energy of shallow layer surface can not satisfy requiring of building, adopt the solar energy system to replenish, realize building heating and/or refrigeration.

For the heat energy in the soil, adopt horizontal coiled pipe heat exchanger and perpendicularly buried pipe heat exchanger to realize the exchange of heat energy substantially, in surface soil, the degree of depth is thermostat layer below 15 meters, and its degree of depth is 10-40 meters, is troposphere below thermostat layer, every increase by 30 degree, the temperature increase once.Therefore in order to realize utilizing the energy in the soil directly to provide refrigeration and heating to building, for freezing summer, the degree of depth of pipe laying is not higher than 100 meters, its temperature is in the interval of 8-20 degree, can directly heat energy be exchanged the back and provide refrigeration for building, can adopt the mode of horizontal or vertical pipe laying, realize exchange underground heat energy.Substantially will reach the above temperature province of underground 21 degree when heating in the winter time, the degree of depth that needs can preferably be carried out the collection of the energy 300-1500 meters scopes in the scope of 500-700 meters degree of depth usually, and temperature is in the temperature range of 40-50 degree.By after the heat exchange, just can directly utilize underground heat energy to provide heating and refrigeration like this for building.

When the refrigeration that adopts shallow layer surface heat energy to be used to build, contain at least one shallow layer surface heat energy thermal source, the degree of depth of its pipe laying heat exchange is generally 1-100 meters, provide temperature not to be higher than the heat energy of 21 degree, the temperature that provides when shallow layer surface heat energy is higher than 16 when spending, start solar refrigeration system, reduce the temperature of cooling fluid, provide refrigeration for building heat energy using energy source pipe end equipment.

When the heating of adopting shallow layer surface heat energy to be used to build, contain at least one shallow layer surface heat energy thermal source, the degree of depth of its pipe laying is 200-1500 meters, can provide temperature to be not less than the heat energy energy of 21 degree, the temperature that provides when shallow layer surface heat energy is lower than 30 when spending, start the heat energy of Solar Energy Heat Utilization System, promote the temperature of energy resource system, provide heating for building heat energy using energy source pipe end equipment.

When the greenhouse production of adopting shallow layer surface heat energy to be used to build, contain at least one shallow layer surface heat energy energy, provide temperature to be not less than the heat energy of 10 degree, when can source temperature being lower than 10 when spending, start the heat energy of Solar Energy Heat Utilization System, promote the temperature of energy resource system, utilize pipe end equipment to provide the energy this partial heat energy for greenhouse production.

Contain at least one low temperature shallow layer surface heat energy thermal source heat exchanger and at least one high temperature shallow layer surface heat energy thermal source heat exchanger, utilize pipe end equipment to provide heating in the winter time this partial heat energy for building, refrigeration was provided in summer, need provide two not unison heat exchangers this moment, one is the heat exchanger of high temperature, realize that temperature is not less than the thermal energy exchange of 21 degree, the degree of depth of its pipe laying is 200-1500 meters, one is cryogenic heat exchanger, realize that temperature is not higher than the thermal energy exchange of 21 degree, the degree of depth of its pipe laying heat exchange is generally 1-100 meters, and two heat exchangers are realized the heating in winter and the refrigeration in summer respectively.When the heat energy of shallow layer surface can not satisfy requiring of building, adopt the solar energy system to replenish, realize building heating and/or refrigeration.

Shallow layer surface heat energy selects to be in the heat energy in the following at least a material:

A, soil: any soil;

B, surface water: refer to the water in the rivers,lakes and seas;

C, underground water: the geothermal water that the face of land is following.

Adopt following at least a shallow layer surface thermal energy heat exchanger to realize heat exchange:

A, horizontal coiled pipe heat exchanger;

B, perpendicularly buried pipe heat exchanger;

C, plate type heat exchanger;

D, shell-and-tube heat exchanger;

E, heat exchange of heat pipe;

F, pipe wing heat exchanger;

G, double-tube heat exchanger.

Because the difference of the temperature of the following soil in the face of land can directly be utilized in order to make the heat energy below the face of land, for the pipe laying heat-exchange system of shallow layer surface heat energy utilization, the degree of depth of pipe laying is not higher than 1 when refrigeration

00 meter, the degree of depth is higher than 150 meters when heating.

Pipe end equipment is selected from following at least a:

A, floor heating pipe are the various polymer tubes that are used for floor heating, and existing diameter minimum is 16MM.

B, capillary;

C, fan coil.

The pipe tube pitch of existing floor heating is 100-300MM, if reduce heating temperature and realize refrigeration simultaneously, needs to adopt the mode of gathering, and the spacing of its pipe fitting is 10-100MM.If only be it is heated.

Heat-transfer fluid is a kind of in liquid, gas, liquefied gas mixture, gas-solid mixture, liquid-solid mixture, liquid solid admixture of gas, the supercritical fluid.

In system, also need to add power-equipment such as pump comes for system provides power, need equipment such as control device, instrument, valve, accumulation of heat device to realize the supply of the energy of system in addition.

With the regenerative resource is the system of main energy sources, and the temperature difference of employing and target temperature 5-15 degree heats and freezes, and summer, low-temperature receiver was 11-21 degree, and winter, thermal source was 21-41 degree, and realization is to indoor 16-26 temperature controls of spending.When freezing summer, according to present GB, if make minimum 26 degree of indoor temperature, the low-temperature receiver that needs minimum 21 degree, if make indoor 16 degree that reach in the winter time, the thermals source that need minimum 21 degree only need provide the thermals source of 21 degree, just can guarantee in the winter time and the energy supply that realizes the building heating standard summer.

Above-mentioned heating and cryogenic temperature are the temperature of setting according to the present national standard of China; but in different countries and in same country different period; national standard is also changing; simultaneously because the resource of shallow layer surface heat energy also has different variations in different zones; thereby need adjust above-mentioned every temperature according to geographical position and national policy; as long as can carry out the supply of the energy according to principle of the present invention; all being the scheme that can implement, all is the content of protection of the present invention.

In this manual, it only is a preferred temperature that the solar energy that sets replenishes temperature value, because solar energy is a kind of resource, abundant in some zones, regional poor in addition, thereby the numerical value that sets should be adjusted according to the resource situation of solar energy, adopting what temperature to carry out solar energy replenishes, can according to circumstances select, as long as can realize the supply of the energy, all be the numerical value that can select.

Description of drawings

The implication of the number designation among the figure is as follows:

1: heat exchanger, 2: end-equipment, 3; Heat-transfer fluid, 4: high temperature direct-buried pipe, 5: low temperature direct-buried pipe, 6: capillary, 7: storage heater, 8: lake, 9: shallow layer surface heat energy thermal source, 10: solar energy acquisition system, 11: low-grade heat source.

Fig. 1: solar energy and the complementation of shallow layer surface heat energy directly utilize the method schematic diagram

By solar energy and the complementary utilization that directly utilizes the shallow layer surface heat energy of terminal realization of shallow layer surface heat energy system through heat-exchange system.

Fig. 2: have high temperature and low temperature direct-buried pipe heat exchanger utilizes the method schematic diagram

By the shallow layer surface heat energy heat exchange utilization that a cryogenic heat exchanger constitutes of unifying of the heat exchanger of a high temperature.

Fig. 3: solar energy with have the complementary method schematic diagram that utilizes of high temperature and low temperature direct-buried pipe low-grade energy

Shallow layer surface heat energy utilization system by high temperature and a low temperature, exchange by a heat exchanger realization heat energy utilizes heat-transfer fluid to realize the transmission of heat energy, utilizes end-equipment to provide the energy for building, provide replenishing of the energy by Solar Energy Heat Utilization System, realize refrigeration and heating.

Fig. 4: the greenhouse production of solar energy and the complementation of shallow layer surface heat energy utilizes the method schematic diagram

Solar energy and the complementation of shallow layer surface heat energy provide the energy for greenhouse production.

Fig. 5: the heat energy complementation that solar energy and surface water are realized utilizes the method schematic diagram

The heat energy that solar energy and surface water are realized is complementary to be utilized, and carries out heat exchange by a heat exchanger, realizes complementary direct building refrigeration.

Fig. 6: the complementary method schematic diagram that directly utilizes of solar energy and low temperature underground water

Solar energy and low temperature underground water directly utilize system.

The specific embodiment:

Embodiment one: solar energy and the complementation of shallow layer surface heat energy directly utilize method

Referring to Fig. 1: the shallow layer surface system adopts well water, its temperature is 15-21 degree, adopting capillary is indoor refrigeration plant, directly well water is transported to indoor capillary place, realize indoor 21-26 degree temperature controlling, when the temperature of well water is higher than 18, start solar refrigeration system, make the cryogenic temperature of its refrigeration be lower than 15 degree, utilize the temperature of 15 degree to provide refrigeration for building.

Embodiment two: have high temperature and low temperature direct-buried pipe heat exchanger

Referring to Fig. 2: low-temperature heat source is the low-temperature receiver that is in underground 30 meters, adopts " u " type pipe of common PPR, can collecting temperature is 15-19 low-temperature receiver, and its thermal power is 1-3KW; The thermal source of its high temperature is the stainless steel tube of 150MM, and the degree of depth is 300 meters, and temperature is the hot water of 25-30 degree.

Embodiment three: solar energy with have high temperature and the complementation of low temperature direct-buried pipe low-grade energy utilizes method

Referring to Fig. 3: low-temperature heat source is the low-temperature receiver that is in underground 50 meters, adopts " u " type pipe of common PPR, can collecting temperature is 15-19 low-temperature receiver, and its thermal power is 2.5-5KW; The thermal source of its high temperature is the stainless steel tube of 300MM, and the degree of depth is 400 meters, and temperature is the hot water of 25-30 degree.The energy of its different temperatures is carried out heat exchange by a heat exchanger, heat energy is transported in the terminal floor heating pipe, realize the heating of building and the refrigeration in summer by heat-transfer fluid.Summer when the temperature through the heat-transfer fluid water of heat exchanger heat exchange is higher than 15, start solar refrigeration system, make the cryogenic temperature of its refrigeration be lower than 15 degree, utilize the temperature of 15 degree to provide refrigeration for building.Be lower than 25 when spending when temperature in the winter time, start solar energy and vulcanize and fill, realize building heating through the heat-transfer fluid water of heat exchanger heat exchange.

Embodiment four: the greenhouse production of solar energy and the complementation of shallow layer surface heat energy utilizes method

Referring to Fig. 4: the temperature requirement in greenhouse temperature in the winter time is not less than 10 degree, adopts the underground heat of 10-40 meters of the underground degree of depth, and providing of heat energy can directly be provided, and adopts the adopting heat pipes for heat transfer mode, and adopting diameter is the carbon steel heat pipe of 39MM, and end-equipment adopts capillary.When the temperature through the heat-transfer fluid water of heat exchanger heat exchange is lower than 10 degree, start solar heating.

Embodiment five: the heat energy complementation that solar energy and surface water are realized utilizes method

Referring to Fig. 5: selecting the lake water temperature is 15-20 degree, by a lake water heat exchanger, the cold water of 18 degree is offered the blower fan end, realizes utilizing lake water to freeze.When the temperature through the heat-transfer fluid water of heat exchanger heat exchange is higher than 15, start solar refrigeration system, make the cryogenic temperature of its refrigeration be lower than 15 degree, utilize the temperature of 15 degree to provide refrigeration for building.

Embodiment six: solar energy and the complementation of low temperature underground water directly utilize method

Referring to Fig. 6: utilize temperature to be lower than the underground water of 45 degree, it can be realized direct heating to building, the mode that adopts floor heating pipe to gather realizes phreatic direct utilization.When the temperature through the heat-transfer fluid water of heat exchanger heat exchange is lower than 28 when spending, start solar energy and vulcanize and fill, realize building heating.

Claims (13)

1, the complementary building energy of a kind of solar and superficial layer face of land heat energy is utilized method, form by solar low-temperature heat utilization system, shallow layer surface heat energy, face of land thermal energy heat exchanger, air conditioner end equipment, it is characterized in that: contain at least one shallow layer surface heat energy energy and at least one pipe end equipment, and at least one group of solar energy utilization system, directly the heat energy with the exchange of shallow layer surface thermal energy heat exchanger is transported on the end-equipment, realize building heating and/or refrigeration, when the heat energy of shallow layer surface can not satisfy requiring of building, adopt the solar energy system to replenish.

2, the complementary building energy of solar and superficial layer face of land heat energy according to claim 1 is utilized method, it is characterized in that: also contain at least one shallow layer surface thermal energy heat exchanger and at least a fluid, described fluid directly is transported to the heat energy of shallow layer surface thermal energy heat exchanger exchange on the end-equipment, when the heat energy of shallow layer surface can not satisfy requiring of building, adopt the solar energy system to replenish, realize building heating and/or refrigeration.

3, heat energy complementary building energy in the solar and superficial layer according to claim 2 face of land is utilized method, it is characterized in that: fluid is a kind of in liquid, gas, liquefied gas mixture, gas-solid mixture, liquid-solid mixture, liquid solid admixture of gas, the supercritical fluid.

4, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: contain at least one shallow layer surface heat energy thermal source, provide temperature not to be higher than the heat energy of 21 degree, the temperature that provides when shallow layer surface heat energy is higher than 16 when spending, start solar refrigeration system, reduce the temperature of cooling fluid, provide refrigeration for building heat energy using energy source pipe end equipment.

5, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: contain at least one shallow layer surface heat energy thermal source, provide temperature to be not less than the heat energy energy of 21 degree, the temperature that provides when shallow layer surface heat energy is lower than 30 when spending, start the heat energy of Solar Energy Heat Utilization System, promote the temperature of energy resource system, provide heating for building heat energy using energy source pipe end equipment.

6, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: contain at least one shallow layer surface heat energy energy, provide temperature to be not less than the heat energy of 10 degree, when can source temperature being lower than 10 when spending, start the heat energy of Solar Energy Heat Utilization System, promote the temperature of energy resource system, utilize pipe end equipment to provide the energy this partial heat energy for greenhouse production.

7, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: contain at least one low temperature shallow layer surface heat energy and at least one high temperature shallow layer surface heat energy, utilize pipe end equipment to provide heating in the winter time this partial heat energy for building, refrigeration was provided in summer, when the heat energy of shallow layer surface can not satisfy requiring of building, adopt the solar energy system to replenish, realize building heating and/or refrigeration.

8, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: shallow layer surface heat energy selects to be in the heat energy in the following at least a material:

A, soil;

B, surface water;

C, underground water.

9, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: adopt following at least a shallow layer surface thermal energy heat exchanger:

A, horizontal coiled pipe heat exchanger;

B, perpendicularly buried pipe heat exchanger;

C, plate type heat exchanger;

D, shell-and-tube heat exchanger;

E, heat exchange of heat pipe;

F, pipe wing heat exchanger;

G, double-tube heat exchanger.

10, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: when the shallow layer surface thermal energy heat exchanger adopts buried tube heat exchanger, pipe laying heat-exchange system for the shallow layer surface heat energy utilization, the degree of depth of pipe laying is not higher than 100 meters when refrigeration, and the degree of depth is higher than 150 meters when heating.

11, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: pipe end equipment is selected from following at least a:

A, floor heating pipe;

B, capillary;

C, fan coil.

12, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: end-equipment need adopt airtight mode when adopting floor heating pipe, and the spacing of its pipe fitting is 10-100MM.

13, utilize method according to claim 1 or the complementary building energy of 2 or 3 described solar and superficial layer face of land heat energy, it is characterized in that: also be provided with power-equipment, control device, instrument, valve, accumulation of heat device.

Images