CN102595850A - Waste heat utilization system - Google Patents

Abstract

The invention relates to a waste heat utilization system comprising a heat generation device, a first heat exchanger which is arranged in the heat generation device, a water inlet pipeline and a water outlet pipeline which are communicated with the first heat exchanger, a second heat exchanger which is arranged on the water outlet channel, and a heat utilization device which contains the second heat exchanger. In the waste heater utilization system, through a water circulating pipeline, the heat which is generated by the heat generation device is further utilized to heat the heat utilization device while the heat generation device is cooled, so that the energy is fully utilized. When the energy is applied, no fuel needs to be used for heating, no waste is produced, no pollution is produced, a water source is not damaged, no cooling water tower and other equipment need to be arranged separately, energy is saved, and the environment is protected.

Description

Bootstrap system

Technical field

The invention relates to a kind of heat circulating system, be meant a kind of bootstrap system especially.

Background technology

Various heating electronic equipments all produce a large amount of heat in use like large-scale rack etc.The user utilizes to export in the surrounding environment like equipment such as radiator, the fan heat that it is inner, so that it is in the normal temperature that can work in order to guarantee the operate as normal of electronic equipment usually.These heats of being derived just directly are emitted in the surrounding environment usually, are not used, and therefore, cause the waste of the energy.

Summary of the invention

In view of this, be necessary to provide a kind of bootstrap system of energy-saving and environmental protection.

A kind of bootstrap system, comprise a heat generator, be positioned over first heat exchanger in the heat generator, be communicated with first heat exchanger setting an inlet channel and an outlet conduit, be arranged at second heat exchanger of 1 on the outlet conduit and accommodate a Btu utilization device of said second heat exchanger.

Among the present invention, through water circulating pipe, in to the heat generator cooling, the heat that further utilizes heat generator to produce heats to the Btu utilization device, has utilized the energy fully.And in the process of these energy utilization, need not use fuel to heat, do not produce discarded object, do not pollute, broken ring water source, not need extra be provided with equipment such as cooling tower, energy-conserving and environment-protective.

Description of drawings

Fig. 1 is the sketch map of the bootstrap system in one embodiment of the invention.

The main element symbol description

Heat generator 10

First heat exchanger 20

Inlet channel 30

Pump 31

Outlet conduit 40

Second heat exchanger 50

Heat-transfer pipe 51

Fin 53

Btu utilization device 60

Water source 70

Embodiment

See also Fig. 1, the bootstrap system in one embodiment of the invention comprises a heat generator 10, be positioned over first heat exchanger 20 that is used for absorbing its heat in the heat generator 10, be communicated with the inlet channel 30 that is provided with and an outlet conduit 40 with first heat exchanger 20, be arranged at one second heat exchanger 50 on the outlet conduit 40 and accommodate a Btu utilization device 60 of this second heat exchanger 50.

Heat generator 10 can be large-scale rack or other large-scale heater members, and it can produce lasting, great amount of heat in the course of the work.In the present invention, heat generator 10 is large-scale data center.

The present invention is communicated with the inlet channel 30 that is provided with and is communicated with setting with a water source 70 with first heat exchanger 20, and inlet channel 30 is provided with a pump 31.This pump 31 is used for the water pump 31 at water source 70 is gone into first heat exchanger 20.Preferably, this water source 70 is a underground water well, and phreatic water temperature is lower than the water temperature of the surface water in it.

When with the water in the water source 70 through inlet channel 30 get into be placed on first heat exchanger 20 in the heat generator 10 after; It circulates in first heat exchanger 20 and absorbs the heat of first heat exchanger 20; First interchanger that temperature has been reduced constantly absorbs the heat that heat generator 10 distributes; So move in circles; Thereby reduce the heat in the heat generator 10, thereby reach the working temperature that reduces the element in the heat generator 10, the service behaviour of guaranteeing these elements does not receive the influence of working temperature.

Boiler water circulation in inlet channel 30 entering first heat exchanger 20 enters water source 70 through outlet conduit 40 after a period of time.At this moment, the water temperature that enters the water of outlet conduit 40 is higher than the temperature of the water in the inlet channel 30 because of the heat that has absorbed first heat exchanger 20.This a part of water further gets into second heat exchanger 50 along outlet conduit 40 circulations.In the present invention, this second heat exchanger 50 comprises the heat-transfer pipe 51 that is wavy continuous bending and is arranged at the fin 53 at some intervals of these heat-transfer pipe 51 outer surfaces.These heat-transfer pipe 51 internal communication settings, its opposite end are connected and are communicated with it setting respectively with outlet conduit 40.This second heat exchanger 50 is placed on as in some Btu utilization devices 60 that need heat such as house usually.Heat-transfer pipe 51 absorb its inner loop water temperature and through its outside fin 53 heat is dispersed in the Btu utilization device 60; Thereby when reaching the heating purpose; Reduce the water temperature of the water in the outlet conduit 40, the water outlet water temperature of the water of this part is reached and the inlet channel 30 interior identical degree of water temperature basically.At last, these water finally are disposed in the water source 70 through outlet conduit 40.

Among the present invention, through water circulating pipe, in to heat generator 10 coolings, the heat that further utilizes heat generator 10 to produce heats to the place of needs heating, has utilized the energy fully.And in these energy utilization processes, need not use fuel to heat, do not produce discarded object, do not pollute, broken ring water source, not need extra be provided with equipment such as cooling tower, energy-conserving and environment-protective.

Claims (7)

1. bootstrap system is characterized in that: comprise a heat generator, be positioned over first heat exchanger in the said heat generator, be communicated with said first heat exchanger setting an inlet channel and an outlet conduit, be arranged at one second heat exchanger on the said outlet conduit and accommodate a Btu utilization device of said second heat exchanger.

2. bootstrap system as claimed in claim 1 is characterized in that: said inlet channel and outlet conduit are communicated with a water source.

3. bootstrap system as claimed in claim 2 is characterized in that: said water source is a underground water well.

4. bootstrap system as claimed in claim 1 is characterized in that: said inlet channel is provided with a pump.

5. bootstrap system as claimed in claim 1 is characterized in that: said second heat exchanger comprises a heat-transfer pipe and is arranged at the fin of some intervals setting of said heat-transfer pipe outer surface.

6. bootstrap system as claimed in claim 5 is characterized in that: said heat-transfer pipe is the wavy of continuous bending, and its opposite end is connected and is communicated with outlet conduit setting respectively with said outlet conduit.

7. bootstrap system as claimed in claim 1 is characterized in that: heat generator is a data center.