CN203808007U - Electric heating experiment device simulating water temperature stratified flowing - Google Patents

Abstract

The utility model relates to an electric heating experiment device simulating water temperature stratified flowing. The device comprises a rectangular electric heating box which comprises a box body with two opened ends, the box body is composed of thin plates, the two opened side faces of the box body are the upstream position and the downstream position of the water flow respectively, a plurality of heat insulation partition plates are evenly and horizontally arranged between the left wall and the right wall of the box body from top to bottom in a stratified mode, a plurality of heating elements are arranged between the heat insulation partition plates, the number and power of the heating elements between the heat insulation partition plates are progressively decreased downwards progressively from the water level, and the heating elements are electrically connected with a control cabinet. The heat insulation partition plates which are arranged in the stratified mode are adopted, the stratified flowing water flow is isolated, and stratified heating is achieved. The number and power of the heating elements between the heat insulation partition plates are progressively decreased downwards from the water level, and therefore the downward changes of the water temperature are simulated. Compared with the prior art, the stable state of the water temperature-flow field is achieved in the simulating process, and can last for a long time, and therefore the continuous and stratified flowing process caused by water taking of a water inlet in a large-scale water temperature stratified reservoir can be simulated.

Description

A kind of electrical heating experimental facilities of simulating water temperature laminar flow

Technical field

The utility model relates to a kind of electrical heating experimental facilities of simulating water temperature laminar flow, is a kind of environmental and ecological hydraulic test device, is a kind of simulation for flow from the superficial to the deep of reservoir, deep water river and water temperature are changed.

Background technology

Engineering practice shows, reservoir depth of water direction before dam that modulability is good all presents water temperature delamination in various degree, reservoir needs for ensureing generating and industrial or agricultural diversion simultaneously, water inlet has all required certain depth of immersion, in reservoir high water level operation in summer and the obvious situation of water temperature delamination, the natural river course water temperature that the lower temperature that sluices is built before dam obviously reduces, thereby bring a series of water at low temperature impacts, as the impact on river valley microclimate, on the impact of downstream river course aquatic ecological, the impact on agricultural irrigation etc.The particularly impact on aquatic ecological, low-temperature discharge may have a strong impact on aquatile as the laying eggs and growth of fish, reptiles, amphibian animal, even causes the disappearance of species.Therefore, research current laminar flow and water temperature delamination change, and correlation is stratified pumping and the important subject of preserving the ecological environment between the two.

Adopting water temperature delamination physical experiments method, is extensive use and the highly effective technological means of research stratified pumping problem.Existing water temperature delamination Physical Experiment has employing to the water of layering injection different temperatures lentamente of the water body in experimental tank, and due to the difference of water body density, cold water dive hot water floating, finally forms water temperature delamination condition.For example: Chinese patent " method for layering simulation for water temperature of reservoir " (notification number: CN101775787, day for announcing 2010.7.14), first by heating system, the water body in different heating pond is heated respectively, then utilize this device by disposable the water body of different temperatures injection model reservoir, leave standstill water body in model reservoir, finally form multilayer water temperature of reservoir.Distribute although said method can form water temperature vertical line in the early stage, but Once you begin water intaking forms flow regime in reservoir, water temperature vertical line distributes and will change again, and in storehouse, water body reduces gradually simultaneously.In simulation process, water temperature-flow field cannot reach stable state, duration is also comparatively of short duration, therefore still cannot simulate in large-scale water temperature stratified type reservoir, the water inlet continuous stratification flow process causing of fetching water, the stable stratification temperature field that cannot simulate for a long time in Dynamic Flow Field changes.How layering water body is heated, and is the problem that needs solution.

Summary of the invention

In order to overcome the problem of prior art, the utility model proposes a kind of electrical heating experimental facilities of simulating water temperature laminar flow.Described device carries out leveled heating to layering current, has realized stable layering water flow temperature field.

The purpose of this utility model is achieved in that a kind of electrical heating experimental facilities of simulating water temperature laminar flow, comprise: the electrical heating case being connected with upstream water supply frontal pool, described electrical heating case comprises that thin plate forms the casing of the rectangle of both ends open, two unlimited sides of described casing are respectively the upstream and downstream of current, between the left and right wall of described casing, be horizontally disposed with uniformly by different level from top to bottom polylith thermal baffle, multiple heating elements are set between each thermal baffle, heating element quantity and power between each thermal baffle are successively decreased downwards by the water surface, described heating element is electrically connected with the switch board of controlling each heating element opening and closing.

Further, described heating element between upper and lower two thermal baffles, approach below 1/3 place of a thermal baffle.

Further, described heating element is heating rod, described heating rod horizontal positioned, and its long axis direction is perpendicular to water (flow) direction.

Further, described thermal baffle arranges the control of export plate by damper regulator control at the position that is positioned at downstream.

Further, described damper regulator comprises: be arranged on the handwheel on box side, described handwheel is connected with rotating shaft by transmission mechanism, and described rotating shaft is provided with pole, and described pole is fixedly connected with control of export plate.

Further, described transmission mechanism be gear rotate, with the one in transmission, chain transmission.

Further, described handwheel is provided with arrestment mechanism.

Further, the downside of described control of export plate is provided with stabilier.

The beneficial effect that the utility model produces is: the thermal baffle that the layering that the utility model adopts is placed, the current of isolated laminar flow also carry out leveled heating.The setting of heating element is taked by the successively decreasing of the prone quantity of water and power, to simulate the downward variation of water temperature.Compared with prior art, can make water temperature-flow field in simulation process reach stable state, and continue for a long time, therefore can simulate in large-scale water temperature stratified type reservoir, the water inlet continuous stratification flow process causing of fetching water.

Brief description of the drawings

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Fig. 1 is the structural representation of the device described in embodiment mono-, three of the present utility model;

Fig. 2 is the structural principle schematic diagram of the device described in embodiment mono-, two of the present utility model, is A-A mode sectional view in Fig. 1;

Fig. 3 is quantity and the distribution situation schematic diagram of the heating element of example device described in embodiment mono-of the present utility model;

Fig. 4 is the structural representation of control of export plate described in embodiment tetra-of the present utility model, is the enlarged drawing that in Fig. 2, B is ordered;

Fig. 5 is the structure intention of damper regulator described in embodiment five, six of the present utility model, is C direction view in Fig. 2.

Detailed description of the invention

Embodiment mono-:

The present embodiment is a kind of electrical heating experimental facilities of simulating water temperature laminar flow, as shown in Figure 1, 2.The present embodiment comprises: the electrical heating case being connected with upstream water supply frontal pool 1, described electrical heating case comprises that thin plate forms the casing 200 of the rectangle of both ends open, two unlimited sides of described casing are respectively upstream and downstream (Fig. 1 of current, arrow in 2 represents water (flow) direction), between the left and right wall of described casing, be horizontally disposed with uniformly by different level from top to bottom polylith thermal baffle 202, multiple heating elements 201 are set between each thermal baffle, heating element quantity and power between each thermal baffle are successively decreased downwards by the water surface, described heating element is electrically connected with the switch board 4 of controlling each heating element opening and closing.

The present embodiment is the key component that simulation water temperature laminar flow is used system, and Main Function is the water temperature field that forms current water different water depth, simulates the experiment of water temperature laminar flow.Current water layering is mainly completed by device described in water supply installation and the present embodiment, and therefore, the upstream of the present embodiment is water conditions in soil layers device, and downstream is the pond for testing.

Casing can be trough shaped, only has left and right side plate and base plate, also can the side of being barrel-shaped, has left and right side plate, base plate and cover plate.For improving the efficiency of heating rod, it is more reasonable with the casing of cover plate to use.Therefore, casing can be that the side of both ends open is barrel-shaped, and in unlimited two ends, one end is connected with the water supply installation of upstream, and one end is connected with the experiment pond in downstream.

For making current laminar flow, the present embodiment has been taked the mode of physical isolation, by being arranged in casing of polylith thermal baffle level, makes to form in casing many grid.Because dividing plate is adiabatic, and between dividing plate and wall box, watertight is connected, and the water between dividing plate can not be exchanged, and therefore, the heat between each dividing plate can not exchange.Current pass through the formation level that dividing plate can be clearly more demarcated, for layering water temperature provides condition.

Heating element is set between dividing plate, current are heated.Because the required water flow temperature of water temperature delamination flowing experiment is to be reduced gradually downwards by the water surface.Therefore, the quantity of the heating element of setting is also reduced downwards gradually by the water surface, and the power of heating element also reduces.

Heating element can have various ways: long bar-shaped, and corynebacterium, circular etc.Each heating element is opened or is closed by switch board respectively, regulates easily heating water temperature.

Because heat upwards flows, heating element can select to be arranged on two dividing plate distance positions that dividing plate is more approaching below, to bring into play more fully the efficiency of heating element.

In some experimentations, test the distribution of water temperature forming in pond and be similar to the water that injects different temperatures, should occur that thermocline turning point place distribution of water temperature concavity and convexity does not conform to the actual conditions.For addressing this problem, at the water outlet of thermal baffle, outlet control panel can be set, go out to flow flow in order to what adjust every layer of flow heated water.Control of export plate is that an installation can be at the plate of perk under manual operation, in order to change the discharge area between dividing plate, and in the time that control of export plate is set level, discharge area maximum, in the time that the perk of control of export plate is maximum, discharge area minimum.

In the time of the perk of control of export plate, for making a dividing plate outlet below be unlikely to increase, can below control of export plate, stabilier be set.In the time of the control of export plate perk of dividing plate outlet above, stabilier can make dividing plate outlet below keep original bore, and does not change.

Switch board is a switchboard of controlling each heating element opening and closing.Each electrical heating elements can singlely be controlled, and also can severally be connected to one group and control, and adjusts layering water temperature as wanting to facilitate.

Fig. 3 is the heating element of a heating cabinet and the power distribution schematic diagram of each element.As shown in Figure 3, the A layer that approaches the water surface most has five 2000W, a 1000W and a 500W heating element, although the heating element quantity of C, D layer is similar with A layer, the power of heating element reduces to some extent.Along with the increase of the depth of water, quantity and the power of heating element constantly reduce.

Experiment embodiment is given an example: in the model experiment of a certain large hydropower station stratified pumping in April, according to field monitoring data, water temperature is divided into 10 layers along depth of water direction, adopts guide 1:150 normal model.By controlling each different elevations, different capacity adds the unlatching of element or closes, simulation water temperature delamination.In process of the test, water body is carried out to continuous heating, make Temperature Distribution remain stable state.In experimentation, consider that density Froude counts principle of similarity and simulates, can reduce heating power.It is the three types heating rod of 500W, 1000W and 2000W that heating element adopts power.Fig. 3 is the heating element of heating cabinet in example and the power distribution schematic diagram of each element.As shown in Figure 3, heating rod general power is 79KW, and the A layer that approaches the water surface most has five 2000W, a 1000W and a 500W heating element, although the heating element quantity of C, D layer is similar with A layer, the power of heating element reduces to some extent.Along with the increase of the depth of water, quantity and the power of heating element constantly reduce.Electrically heated rod is arranged in parallel, and overall rule is followed quantity " upper how lower few ", the principle of power " up big and down small ".In example, thermal treatment zone hierarchy number distributes and is decided to be 10 layers according to actual water temperature of reservoir, and according to flow, flow velocity and every layer of heating power of target water temperature conversion.Distance H=0.1m between two dividing plates, the level interval b between electrically heated rod determines according to working as the required peak power number of layer, b=0.08m.By each electrically heated rod numbering, control by switch board is unified, in switch board, be arranged at the switch of heating rod equal number, and switch number is corresponding one by one with electrically heated rod numbering.

Embodiment bis-:

The present embodiment is the improvement of embodiment mono-, is the refinement of embodiment bis-heating elements.Heating element described in the present embodiment between upper and lower two thermal baffles, approach below 1/3 place of a thermal baffle.

Position on the lower side between two dividing plates, the position of the heating element described in the present embodiment, this is definite in order to give full play to heating element effect.Because heating element is at adstante febre, the radiant heat that around all can be heated apart from heating element.That is to say, what around heating element, have an isotropic adds thermal radiation temperature field, and distant position needs there is medium transferring heat, and the approach of medium transferring heat is approach upwards.Therefore, heating element is attached to completely on the thermal baffle of one deck below and unreasonable, and centre position, or is all irrational near a thermal baffle above more.Heating element is placed on the 1/3 more reasonable of distance H between two thermal baffles, as shown in Figure 2.

Embodiment tri-:

The present embodiment is the improvement of above-described embodiment, is the refinement of above-described embodiment about heating element.Heating element described in the present embodiment is heating rod, described heating rod horizontal positioned, and its long axis direction is perpendicular to water (flow) direction.

The advantage of heating rod is that profile is strip, can be horizontal in water (flow) direction, and the water flowing through is heated uniformly, as shown in Figure 1.

Embodiment tetra-:

The present embodiment is the improvement of above-described embodiment, is the refinement of above-described embodiment about thermal baffle.Thermal baffle described in the present embodiment arranges the control of export plate 203 by damper regulator control at the position that is positioned at downstream, as shown in Figure 4.

The effect of control of export plate is to adjust the area exporting between two thermal baffles, for changing flow.Control of export plate can be arranged on a hinge, and control of export plate utilizes the area that changes thermal baffle outlet around the swing of hinge.Control of export plate can be tilted upward, also can be curved downwards.Tilting upward is the area (situation of the control of export plate perk dotting in Fig. 4) that regulates an outlet above, and curved is downwards to regulate the area of an outlet below.

Damper regulator has various ways, for example, can, by the mode of twisting hinge, also can use the mode of lever drives control panel rotation etc.

Embodiment five:

The present embodiment is the improvement of embodiment tetra-, is the refinement of embodiment tetra-about damper regulator.Damper regulator described in the present embodiment comprises: be arranged on the handwheel 207 on box side, described handwheel is connected with rotating shaft 204 by transmission mechanism 208, described rotating shaft is provided with pole 206, and described pole is fixedly connected with control of export plate, as shown in Figure 5.

Damper regulator described in the present embodiment is the rotation by handwheel, drives rotating shaft (hinge of control of export plate) to rotate by transmission mechanism, drives control of export plate to rotate.Transmission mechanism can be the mechanical transmission mechanism of various lever character.On handwheel, should, with arrestment mechanism, put in place once control of export plate regulates, by handwheel locking, make experimental data inaccuracy in order to avoid discharge area changes.

Embodiment six:

The present embodiment is the improvement of embodiment five, is the refinement of embodiment five about transmission mechanism.Transmission mechanism described in the present embodiment be gear rotate, with the one in transmission, chain transmission.

Gear drive can be used very accurate cycloid gear, also can use common involute gear.Band transmission can be used accurate synchronous cog belt, or common flat belt.

Embodiment seven:

The present embodiment is the improvement of embodiment six, is the refinement of embodiment six about handwheel.Handwheel described in the present embodiment is provided with arrestment mechanism.

The arrestment mechanism of handwheel can be the locking of similar jack-screw type, locking that also can ratchet-ratchet.Even directly use this transmission device with auto-lock function of turbine and worm transmission.

Embodiment eight:

The present embodiment is the improvement of above-described embodiment, is the refinement of above-described embodiment about control of export plate.The downside of the control of export plate described in the present embodiment is provided with stabilier.

Stabilier is the extension of thermal baffle, in the time that control of export plate is set level, parallel with stabilier, in the time of the perk of control of export plate, affect other outlets.

Finally it should be noted that, below only unrestricted in order to the technical solution of the utility model to be described, although the utility model is had been described in detail with reference to preferred arrangement scheme, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement the technical solution of the utility model (such as the connected mode of heating element, the shape of casing, form and the set-up mode etc. of thermal baffle), and not depart from the spirit and scope of technical solutions of the utility model.

Claims (8)

1. simulate the electrical heating experimental facilities of water temperature laminar flow for one kind, comprise: the rectangle electrical heating case being connected with upstream water supply frontal pool, it is characterized in that, described electrical heating case comprises that thin plate forms the casing of the rectangle of both ends open, two unlimited sides of described casing are respectively the upstream and downstream of current, between the left and right wall of described casing, be horizontally disposed with uniformly by different level from top to bottom polylith thermal baffle, multiple heating elements are set between each thermal baffle, heating element quantity and power between each thermal baffle are successively decreased downwards by the water surface, described heating element is electrically connected with the switch board of controlling each heating element opening and closing.

2. device according to claim 1, is characterized in that, described heating element between upper and lower two thermal baffles, approach below 1/3 place of a thermal baffle.

3. device according to claim 1 and 2, is characterized in that, described heating element is heating rod, described heating rod horizontal positioned, and its long axis direction is perpendicular to water (flow) direction.

4. device according to claim 1, is characterized in that, described thermal baffle arranges the control of export plate by damper regulator control at the position that is positioned at downstream.

5. device according to claim 4, it is characterized in that, described damper regulator comprises: be arranged on the handwheel on box side, described handwheel is connected with rotating shaft by transmission mechanism, described rotating shaft is provided with pole, and described pole is fixedly connected with control of export plate.

6. device according to claim 5, is characterized in that, described transmission mechanism be gear rotate, with the one in transmission, chain transmission.

7. device according to claim 6, is characterized in that, described handwheel is provided with arrestment mechanism.

8. according to the device one of claim 4-7 Suo Shu, it is characterized in that, the downside of described control of export plate is provided with stabilier.