CN204513534U - A kind of heating system utilizing deep geothermal heat water - Google Patents

Abstract

The utility model relates to a kind of heating system utilizing deep geothermal heat water, and this heating system comprises: GEOTHERMAL WATER feed pipe, GEOTHERMAL WATER return pipe, desander, first piece of heat exchanger, second piece of heat exchanger, intercycle water pump, heating circulation pump, source pump, Pressure gauge, water-supply and pressure-stabling pump, floor heating feed pipe, floor heating return pipe, running water pipe, filter, water collector, water knockout drum, water tank and water softening device; First source pump water inlet end of second piece of heat exchanger is connected with the source pump water inlet end of source pump; First GEOTHERMAL WATER backwater end of first piece of heat exchanger is connected with the second GEOTHERMAL WATER water inlet end of second piece of heat exchanger; First floor heating water water inlet end of first piece of heat exchanger, the floor heating water water inlet end of source pump are connected with floor heating return pipe respectively, and the first floor heating water of first piece of heat exchanger supplies the floor heating water of water end (W.E.), source pump to be connected with floor heating feed pipe respectively for water end (W.E.).Native system utilizes the feature of deep geothermal heat water, greatly reduces heating units consumption, reaches energy-conservation object, has applicability more widely.

Description

A kind of heating system utilizing deep geothermal heat water

Technical field

The utility model relates to heating technology field, is specifically related to a kind of heating system utilizing deep geothermal heat water.Use this heating system can make full use of the feature of deep geothermal heat water, greatly reduce the energy consumption of heating unit, reach energy-conservation object.

Background technology

Along with improving constantly of China's economy, the living condition of people is improved rapidly, and the requirement of people to quality of life also improves gradually.But while economic development, excessive to the requirement consumes of the existing energy on the one hand, the requirement of environmental protection is also constantly strict on the other hand.Especially Winter heat supply is essential in North City, and heating effect also more and more receives the concern of people, and the saving how better realizing the energy utilizes, and improves the much-talked-about topic that heating effect becomes people's research.Traditional boiler, thermoelectricity co-generating heat supplying consume the non-renewable energy resources such as coal, natural gas to realize the heating demands of building own, easily caused heat waster heat energy.Meanwhile, a large amount of greenhouse gases are discharged, contaminated environment.

For the present situation of current city heat supply, corresponding Energy Saving Method is proposed to realize the efficiency utilization of the energy, the such as regenerative resource such as solar energy, geothermal energy or the industrial exhaust heat application in heating.Because underground heat, industrial exhaust heat have metastable feature, apply more, but how to improve the utilization ratio of underground heat, industrial exhaust heat to greatest extent, seek prioritization scheme still further.

Utility model content

For the above-mentioned problems in the prior art, the purpose of this utility model is: provide a kind of heating system utilizing deep geothermal heat water, use this heating system can make full use of the feature of deep geothermal heat water, greatly reduce the energy consumption of heating unit, reach energy-conservation object, there is applicability more widely.

In order to achieve the above object, the utility model is by following technological means:

Utilize a heating system for deep geothermal heat water, this heating system comprises: GEOTHERMAL WATER feed pipe, GEOTHERMAL WATER return pipe, desander, first piece of heat exchanger, second piece of heat exchanger, intercycle water pump, heating circulation pump, source pump, Pressure gauge, water-supply and pressure-stabling pump, floor heating feed pipe, floor heating return pipe, running water pipe, filter, water collector, water knockout drum, water tank and water softening device; Described desander is connected with the first GEOTHERMAL WATER water inlet end of described GEOTHERMAL WATER feed pipe, described first piece of heat exchanger respectively; Second GEOTHERMAL WATER backwater end of described second piece of heat exchanger is connected with described GEOTHERMAL WATER return pipe; First source pump of described second piece of heat exchanger is connected with the source pump water inlet end of described source pump for water end (W.E.); First GEOTHERMAL WATER backwater end of described first piece of heat exchanger is connected with the second GEOTHERMAL WATER water inlet end of described second piece of heat exchanger; Described intercycle water pump is connected with the intercycle water feeding of water pump end of the first intercycle water feeding of water pump end of described second piece of heat exchanger, described source pump respectively; First floor heating water water inlet end of described first piece of heat exchanger is connected with the floor heating water water inlet end of described source pump, and the first floor heating water of described first piece of heat exchanger is connected for water end (W.E.) with the floor heating water of described source pump for water end (W.E.); The floor heating water of described source pump is also connected with described floor heating feed pipe for water end (W.E.); Described floor heating return pipe is connected with the first floor heating water inlet end of described filter, described first piece of heat exchanger respectively; Described filter is also connected with described water collector; Described floor heating feed pipe is connected for water end (W.E.), described heating circulation pump with the first floor heating water of described first piece of heat exchanger respectively; Described heating circulation pump is also connected with described water knockout drum; Described water softening device is connected with described running water pipe, described water tank respectively; Described water-supply and pressure-stabling pump is connected with described Pressure gauge, described water tank respectively; Described Pressure gauge is connected for water end (W.E.) with the first floor heating of described first piece of heat exchanger; Described Pressure gauge is connected with the intercycle water feeding of water pump end of described source pump.

As the further optimization of technique scheme, described Pressure gauge is electro connecting pressure gauge.

Compared with prior art, heating system tool of the present utility model is adopted to have the following advantages:

(1) use this heating system can make full use of the feature of deep geothermal heat water, greatly reduce the energy consumption of heating unit, improve the ecological environment in atmospheric environment and city, reduce the generation of haze weather, reach energy-conservation object.

(2) at the initial stage that heating equipment is installed, can reduce investment outlay, bring good investment landscape, there is applicability more widely.

(3) when identical heat load, GEOTHERMAL WATER internal circulating load is few compared with traditional water resource heat pump, decreases the energy consumption of recharging and bringing.

Accompanying drawing explanation

Accompanying drawing 1 is the structural representation of the utility model heating system;

Accompanying drawing 2 is the structural representation of first piece of heat exchanger in the utility model heating system;

Accompanying drawing 3 is the structural representation of second piece of heat exchanger in the utility model heating system.

Detailed description of the invention

Below in conjunction with accompanying drawing 1-accompanying drawing 3, the heating system of deep geothermal heat water that utilizes of the present utility model is described further.

Utilize a heating system for deep geothermal heat water, it is characterized in that: this heating system comprises: GEOTHERMAL WATER feed pipe 1, GEOTHERMAL WATER return pipe 2, desander 3, first piece of heat exchanger 4, second piece of heat exchanger 5, intercycle water pump 6, heating circulation pump 7, source pump 8, Pressure gauge 9, water-supply and pressure-stabling pump 10, floor heating feed pipe 11, floor heating return pipe 12, running water pipe 13, filter 14, water collector 15, water knockout drum 16, water tank 17 and water softening device 18; Described desander 3 is connected with the first GEOTHERMAL WATER water inlet end 4-1 of described GEOTHERMAL WATER feed pipe 1, described first piece of heat exchanger 4 respectively; Second GEOTHERMAL WATER backwater end 5-1 of described second piece of heat exchanger 5 is connected with described GEOTHERMAL WATER return pipe 2; First source pump of described second piece of heat exchanger 5 is connected with the source pump water inlet end 8-1 of described source pump 8 for water end (W.E.) 5-2; First GEOTHERMAL WATER backwater end 4-2 of described first piece of heat exchanger 4 is connected with the second GEOTHERMAL WATER water inlet end 5-3 of described second piece of heat exchanger 5; Described intercycle water pump 6 is connected with the first intercycle water feeding of water pump end 5-4 of described second piece of heat exchanger 5, the intercycle water feeding of water pump end 8-2 of described source pump 8 respectively; First floor heating water water inlet end 4-3 of described first piece of heat exchanger 4 is connected with the floor heating water water inlet end 8-4 of described source pump 8, and the first floor heating water of described first piece of heat exchanger 4 is connected for water end (W.E.) 8-3 with the floor heating water of described source pump 8 for water end (W.E.) 4-4; The floor heating water of described source pump 8 is also connected with described floor heating feed pipe 11 for water end (W.E.) 8-3; Described floor heating return pipe 12 is connected with the first floor heating water inlet end 4-3 of described filter 14, described first piece of heat exchanger 4 respectively; Described filter 14 is also connected with described water collector 15; Described floor heating feed pipe 11 is connected for water end (W.E.) 4-4, described heating circulation pump 7 with the first floor heating water of described first piece of heat exchanger 4 respectively; Described heating circulation pump 7 is also connected with described water knockout drum 16; Described water softening device 18 is connected with described running water pipe 13, described water tank 17 respectively; Described water-supply and pressure-stabling pump 10 is connected with described Pressure gauge 9, described water tank 17 respectively; Described Pressure gauge 9 is connected for water end (W.E.) 4-4 with the first floor heating of described first piece of heat exchanger 4; Described Pressure gauge 9 is connected with the intercycle water feeding of water pump end 8-2 of described source pump 8.Described Pressure gauge 9 is electro connecting pressure gauge.

Operation principle of the present utility model is: utilize GEOTHERMAL WATER first with the backwater heat exchange of a part of heating, after making this part heating return water temperature bring up to heating supply water temperature, then resident floor pipe laying is turned back to, residue heating backwater enters after source pump heats up and returns settlement place pipe laying equally, the heat of source pump comes from the GEOTHERMAL WATER of having changed heat with first piece of heat exchanger, system controls water-supply and pressure-stabling pump to floor heating heating loop by electro connecting pressure gauge, second piece of intermediate loop between heat exchanger and heat pump carries out level pressure, and carry out moisturizing when loop dehydration, when system pressure exceedes setting value, to be discharged water pressure release by safety valve.

Consider the above-mentioned advantage of heating system of the present utility model, the basis of this heating system does to replace to " GEOTHERMAL WATER ", replaced to the step process that " industrial colling or industrial wastewater " can also be used for industrial exhaust heat, to reach the object of energy-saving and emission-reduction.

Above-mentioned is can understand for ease of those skilled in the art and apply the utility model to the description of embodiment.Person skilled in the art obviously easily can make various amendment to these embodiments, and General Principle described herein is applied in other embodiments and need not through performing creative labour.Therefore, the utility model is not limited to embodiment here, and those skilled in the art, according to announcement of the present utility model, do not depart from improvement that the utility model category makes and amendment all should within protection domain of the present utility model.

Claims (2)

1. one kind utilizes the heating system of deep geothermal heat water, it is characterized in that: this heating system comprises: GEOTHERMAL WATER feed pipe (1), GEOTHERMAL WATER return pipe (2), desander (3), first piece of heat exchanger (4), second piece of heat exchanger (5), intercycle water pump (6), heating circulation pump (7), source pump (8), Pressure gauge (9), water-supply and pressure-stabling pump (10), floor heating feed pipe (11), floor heating return pipe (12), running water pipe (13), filter (14), water collector (15), water knockout drum (16), water tank (17) and water softening device (18), described desander (3) is connected with the first GEOTHERMAL WATER water inlet end (4-1) of described GEOTHERMAL WATER feed pipe (1), described first piece of heat exchanger (4) respectively, second GEOTHERMAL WATER backwater end (5-1) of described second piece of heat exchanger (5) is connected with described GEOTHERMAL WATER return pipe (2), first source pump of described second piece of heat exchanger (5) is connected with the source pump water inlet end (8-1) of described source pump (8) for water end (W.E.) (5-2), first GEOTHERMAL WATER backwater end (4-2) of described first piece of heat exchanger (4) is connected with the second GEOTHERMAL WATER water inlet end (5-3) of described second piece of heat exchanger (5), described intercycle water pump (6) is connected with the first intercycle water feeding of water pump end (5-4) of described second piece of heat exchanger (5), the intercycle water feeding of water pump end (8-2) of described source pump (8) respectively, first floor heating water water inlet end (4-3) of described first piece of heat exchanger (4) is connected with the floor heating water water inlet end (8-4) of described source pump (8), and the first floor heating water of described first piece of heat exchanger (4) is connected for water end (W.E.) (8-3) with the floor heating water of described source pump (8) for water end (W.E.) (4-4), the floor heating water of described source pump (8) is also connected with described floor heating feed pipe (11) for water end (W.E.) (8-3), described floor heating return pipe (12) is connected with the first floor heating water inlet end (4-3) of described filter (14), described first piece of heat exchanger (4) respectively, described filter (14) is also connected with described water collector (15), described floor heating feed pipe (11) is connected for water end (W.E.) (4-4), described heating circulation pump (7) with the first floor heating water of described first piece of heat exchanger (4) respectively, described heating circulation pump (7) is also connected with described water knockout drum (16), described water softening device (18) is connected with described running water pipe (13), described water tank (17) respectively, described water-supply and pressure-stabling pump (10) is connected with described Pressure gauge (9), described water tank (17) respectively, described Pressure gauge (9) is connected for water end (W.E.) (4-4) with the first floor heating of described first piece of heat exchanger (4), described Pressure gauge (9) is connected with the intercycle water feeding of water pump end (8-2) of described source pump (8).

2. a kind of heating system utilizing deep geothermal heat water according to claim 1, is characterized in that: described Pressure gauge (9) is electro connecting pressure gauge.