CN201722197U - Energy-saving and environment-friendly heat exchange device - Google Patents

Abstract

The utility model discloses an energy-saving and environment-friendly heat exchange device, which comprises a heat exchanger and a liquid inlet pipeline connected with an inlet of the heat exchanger. A radiator is disposed on the liquid inlet pipeline. In the energy-saving and environment-friendly heat exchange device, the radiator has fine radiating effect, and before liquid to be cooled enters the heat exchanger, the temperature of the liquid can be effectively reduced, thereby reducing load of the heat exchanger, increasing cooling effect, simultaneously reducing cooling water usage and then saving energy.

Description

The energy-conserving and environment-protective heat-exchanger rig

Technical field

The utility model relates to a kind of fluidic heat exchanger, especially a kind of energy-conserving and environment-protective heat-exchanger rig.

Background technology

In industrial production, interchanger is the fluid thermal switch of using always, in the production when a certain liquid need cool off, usually use interchanger to reduce temperature, and liquid is before entering interchanger, usually in pipeline, flow through very long distance, existing pipeline configuration thermal diffusivity is relatively poor, the temperature that liquid flow produces behind pipeline is fallen very little, the cooling of its temperature is mainly finished by interchanger, and such mode has increased the burden of interchanger, also needs a large amount of water coolants simultaneously, not only reduced cooling efficiency, also be unfavorable for saving energy and reduce the cost simultaneously.

Summary of the invention

The purpose of this utility model is the liquid a kind of to be cooled that provides for the deficiency that solves above-mentioned technology can effectively reduce fluid temperature before entering interchanger an energy-conserving and environment-protective heat-exchanger rig.

In order to achieve the above object, the energy-conserving and environment-protective heat-exchanger rig that the utility model is designed, it comprises interchanger and the input duct that links to each other with the interchanger import, is provided with scatterer on described input duct.

As preferably, described scatterer is a heat-exchange finned tube, and heat-exchange finned tube can reach better heat radiating effect.

As preferably, the fluid pipeline of described interchanger is provided with the sewage plant pipe joint, and this energy-conserving and environment-protective heat-exchanger rig can effectively reduce sewage temperature to the required temperature of microorganism when being used for sewage lowered the temperature, thereby can guarantee the effect of sewage disposal.

As preferably, described input duct is provided with gas and washs the tower pipe joint.

The energy-conserving and environment-protective heat-exchanger rig that the utility model obtains; scatterer can play better heat radiating effect; liquid to be cooled can effectively reduce fluid temperature before entering interchanger; thereby reduced the burden of interchanger; improved cooling performance; simultaneously reduce the consumption of water coolant again, thereby saved the energy.

Description of drawings

Fig. 1 is the structural representation of embodiment 1;

Fig. 2 is the structural representation of embodiment 2;

Fig. 3 is that existing gas is washed tower sewage refrigerative structural representation;

Fig. 4 is the structural representation of embodiment 3.

Among the figure: interchanger 1, input duct 2, scatterer 3, fluid pipeline 4, sewage plant 5, gas are washed tower 6, sewage plant pipe joint 7.

Embodiment

The utility model will be further described in conjunction with the accompanying drawings below by embodiment.

Embodiment 1

As shown in Figure 1, the described energy-conserving and environment-protective heat-exchanger rig of present embodiment, it comprises interchanger 1 and the input duct 2 that links to each other with interchanger 1 import, is provided with scatterer 3 on described input duct 2.Described scatterer 3 is stainless steel tube aluminium wing convectors.

Certainly scatterer 3 also can adopt other scatterers commonly used on the market, but prerequisite is to have the condition that meets the flow-induced corrosion characteristic, promptly can not be corroded by fluid medium, therefore this field case adopts stainless steel 304 materials because medium has certain corrodibility.

The energy-conserving and environment-protective heat-exchanger rig that the utility model obtains; scatterer 3 can play better heat radiating effect; liquid to be cooled can effectively reduce fluid temperature before entering interchanger 1; thereby reduced the burden of interchanger 1; improved cooling performance; simultaneously reduce the consumption of water coolant again, thereby saved the energy.

Embodiment 2

As shown in Figure 2; the described energy-conserving and environment-protective heat-exchanger rig of present embodiment; it comprises interchanger 1 and the input duct 2 that links to each other with interchanger 1 import; on described input duct 2, be provided with scatterer 3; the fluid pipeline 4 of described interchanger 1 is provided with sewage plant pipe joint 7, is used to connect sewage plant 5.

This energy-conservation environmental protection heat-exchanger rig is used for that sewage is carried out heat exchange to be handled, and carries out sewage plant 5 then and carries out follow-up works such as microbiological degradation.Because it is higher during microbiological degradation to environment requirement; temperature sensitive particularly; in order to guarantee the vigor of microorganism; sewage temperature need be reduced between 35 ℃ to 42 ℃ when entering sewage plant 5; and existing heat-exchanger rig; because exchange capability of heat is limited; if pending sewage temperature higher (leaving water temperature(LWT) of washing tower 6 as gas is about 90 ℃); usually sewage enters sewage plant 5 and fails to reach the optimum temps that aforementioned micro organism maintains vigour after heat exchange; thereby influence wastewater treatment efficiency; and the described energy-conserving and environment-protective heat-exchanger rig of present embodiment; scatterer 3 can play better heat radiating effect; liquid to be cooled can effectively reduce fluid temperature before entering interchanger 1, thereby has reduced the burden of interchanger 1, through the cooling of two steps; improved cooling performance; simultaneously reduced the consumption of water coolant again, thereby saved the energy, can effectively satisfy cooling requirement high temperature sewage.

Embodiment 3

Shown in Fig. 3,4, the described energy-conserving and environment-protective heat-exchanger rig of present embodiment, described input duct 2 is provided with gas and washs tower 6 pipe joints and be used to connect gas and wash tower 6, is used for that gas is washed tower 6 water outlets and cools off, and enters sewage plant 5 afterwards and handles.

The described energy-conserving and environment-protective heat-exchanger rig of present embodiment; under the unfavorable situation of former water cooling effect; installing one group of heat exchange fin on input duct 2 additional cools off sewage; after carrying out the cooling of two steps; sewage drops to the temperature T (35 ℃＜T＜42 ℃) that can use from 95 ℃ of original leaving water temperature(LWT)s, to guarantee the vigor of microorganism in the sewage lagoon.Avoid in the past that water temperature is too high to be made microorganism lose vigor not reach the sewage disposal purpose easily.Through facts have proved that this novel energy-saving environment-friendly heat-exchanger rig system can reach water temperature control purpose fully.

Claims (5)

1. energy-conserving and environment-protective heat-exchanger rig, it comprises interchanger (1) and the input duct (2) that links to each other with interchanger (1) import, it is characterized in that being provided with on described input duct (2) scatterer (3).

2. energy-conserving and environment-protective heat-exchanger rig according to claim 1 is characterized in that described scatterer (3) is a heat-exchange finned tube.

3. energy-conserving and environment-protective heat-exchanger rig according to claim 1 and 2 is characterized in that the fluid pipeline (4) of described interchanger (1) is provided with sewage plant pipe joint (7).

4. energy-conserving and environment-protective heat-exchanger rig according to claim 1 and 2 is characterized in that described input duct (2) is provided with gas and washs the tower pipe joint.

5. energy-conserving and environment-protective heat-exchanger rig according to claim 3 is characterized in that described input duct (2) is provided with gas and washs the tower pipe joint.

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