CN110457848A - Without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge - Google Patents

Abstract

Belong to hydraulic and hydroelectric engineering technical field without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge the invention discloses a kind of, provides the new calculating of one kind without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge, the precision of calculated result can be effectively improved.The present invention calculates section by the way that interception is corresponding, and is calculated by using " the total stream energy conservation of liquid constant " formula, keeps the tail water lock chamber hydrostatic place value calculated accurate and reliable, closer to actual water level；To provide more accurate foundation for subsequent power station Installation Elevation determination, tail water fabric structure design especially tail water lock chamber structure arrangement, construction investment may finally be saved.The method of the invention scope of application in without pressure tail water discharge elevation computation is wider, and convenience of calculation is simple, is worth of widely use.

Description

Without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge

Technical field

The present invention relates to hydraulic and hydroelectric engineering technical field more particularly to it is a kind of without pressure tail water discharge in tail water lock chamber hydrostatic Position calculation method.

Background technique

It is a significant design foundation in the design of tail water structure, water-level gauge without tail water lock chamber hydrostatic level in pressure tail water discharge The main purpose of calculation is the hydrostatic level for determining various design conditions lower tail sluice rooms, so as to more reasonable progress tailwater channel, The fabric structures layout designs such as tailrace outlet gate pier, tail water lock chamber, while really for power station kinetic energy design, units' installation elevation The accurate foundations of offers such as fixed and gate structure design.

Currently, since the needs of arrangement are equipped with length without pressure tail water discharge, this tail water discharge in many hydroelectric station designs Mainly including tail lock room and accordingly without pressure tail water runner, and without pressure tail water runner mainly by going out without pressure tailrace tunnel, tail water The mouth buildings such as gate pier and tailwater channel composition.Because the corresponding structure type of tail water discharge is more under normal conditions, potamometer It is more complicated to calculate boundary condition, it is accurate that the various water levels of tail lock room are difficult to determine.In the past, in many short-tail water systems or In the fairly simple power station of tail water discharge, since tail water runner is short, structure type is relatively single, there is no cavern's sections to close And cross dimensions changes, when bend, using in hydraulics hydraulic loss calculating or river water surface profile inquire into, i.e., The hydrostatic level accordingly without pressure tail water lock chamber can be calculated, in allowable range of error, calculating tailwater elevation can be full Sufficient design accuracy requirement.

But long without in pressure tail water discharge or in the case that the form of tail water runner is relatively complicated, in tail water lock chamber Hydrostatic level using the above method calculate, calculated result deviation is larger, is unfavorable for the design arrangement of entire tail water discharge, especially Precision is poor to be determined to units' installation elevation, is unfavorable for the minute design in power station.In design, often relatively safety, value compared with Be it is conservative, remaining is larger, to influence the economy in power station.

Summary of the invention

The technical problem to be solved by the present invention is to provide a kind of new calculating without tail water lock chamber hydrostatic level meter in pressure tail water discharge Calculation method can effectively improve the precision of calculated result.

The technical solution adopted by the present invention to solve the technical problems is: without tail water lock chamber hydrostatic level meter in pressure tail water discharge Calculation method is calculated in the known arragement construction without tail water runner in pressure tail water discharge and in the case where target flow Q, Include the following steps:

A, acquisition is without corresponding river water level at tail water runner exit in pressure tail water discharge；

B, taking the cross-section of river at tail water runner exit is Outlet Section N₀, take the cross-section of river of tail water flow passage entry to be Inlet section N_max；Along the Way in for being exported to tail water runner of tail water runner, it is phase that successively compartment of terrain, which takes multiple cross-sections of river, The calculating section N answered_i, wherein subscript i takes positive integer, calculates section N_iIt indicates to be exported to entering for tail water runner from tail water runner I-th of the cross-section of river taken between mouthful；

C, the river water level obtained using in step A is as Outlet Section N₀The water surface water level h at place₀；Pass through Outlet Section N₀Place Water surface water level h₀, Outlet Section N₀Design parameter and target flow Q Outlet Section N is calculated₀It is flat to locate corresponding water flow Equal flow velocity v₀；

D, datum plane is chosen, then from Outlet Section N₀Start a calculating section N under step-by-step calculation_iLocate corresponding water flow Mean flow rate v_i, and inlet section N is finally calculated_maxLocate corresponding water flow mean flow rate v_max；

Adjacent calculating section N_iWith calculating section N_(i+1)Between calculated using following calculation formula:

z_i+p_i/γ+v_i ²/(2*g)+h_w=z_(i+1)+p_(i+1)/γ+v_(i+1) ²/(2*g)

In formula:

z_iIt indicates to calculate section N under relative datum plane_iLocate average bit energy, also known as position possessed by Unit Weight water body Set head；

p_i/ γ indicates to calculate section N under relative datum plane_iLocate average pressure energy possessed by Unit Weight water body；

v_i ²/ (2*g) indicates to calculate section N under relative datum plane_iLocate mean kinetic energy possessed by Unit Weight water body；

p_iExpression, which acts on, calculates section N_iCentroid on dynamic hydraulic pressure it is strong；

The bulk density of γ expression water；

v_iIt indicates to calculate section N_iWater flow mean flow rate；

G indicates acceleration of gravity；

h_wIndicate adjacent calculating section N_iWith calculating section N_(i+1)Between gross head loss；

E, pass through inlet section N_maxDesign parameter, the inlet section N at place_maxLocate corresponding water flow mean flow rate v_maxAnd finger Inlet section N is calculated in constant flow Q_maxThe water surface water level h at place_max；And the face water level h that fetches water_maxFor without tail water in pressure tail water discharge Lock chamber hydrostatic level.

Further, h_wTake adjacent calculating section N_iWith calculating section N_(i+1)Between frictional head loss and part The sum of head loss.

Further, calculating water velocity v needed for calculating the frictional head loss, which takes, calculates section N_iIt is corresponding Water flow mean flow rate v_iWith calculating section N_(i+1)Corresponding water flow mean flow rate v_(i+1)Arithmetic mean of instantaneous value, i.e. v=(v_i+ v_(i+1))/2。

Further, z_iIt takes and calculates section N_iCentroid to datum plane vertical range.

Further, p_i/ γ, which takes, calculates section N_iThe water surface to calculating section N_iCentroid between vertical range.

Further, in stepb, along the Way in for being exported to tail water runner of tail water runner, in tail water runner The every mutation of flow boundary condition position at take at this cross-section of river to be corresponding to calculate section N_i。

Further, including following any at the position of the every mutation of flow boundary condition of the tail water runner At position corresponding to a kind of situation: the cross-section of river increases suddenly, the cross-section of river reduces suddenly, the cross-section of river merges, it is disconnected to cross water Face fork, the cross-section of river are climbed suddenly, the cross-section of river lower suddenly broken, the outlet of bend entrance, bend, trash rack entrance, trash rack Outlet, gate slot entrance and gate slot outlet.

The beneficial effects of the present invention are: the present invention calculates section by the way that interception is corresponding, and by using " liquid constant is total Stream energy conservation " formula is calculated, and keeps the tail water lock chamber hydrostatic place value calculated accurate and reliable, closer to actual water level； It is more smart to be provided for subsequent power station Installation Elevation determination, the design of tail water fabric structure especially tail water lock chamber structure arrangement True foundation.The method of the invention scope of application in without pressure tail water discharge elevation computation is wider, and convenience of calculation is simple, value It must promote the use of.

Detailed description of the invention

Fig. 1 is length of the invention without pressure tail water discharge floor map；

Fig. 2 is length of the invention without pressure tail water discharge vertical section schematic diagram；

Fig. 3 is the schematic diagram that energy equation calculates typical section；

Fig. 4 is Outlet Section N₀Schematic diagram；

In the figure, it is marked as tail water connects hole 1, tail water lock chamber 2, tail water runner 3, counter-slope section 31, straight way section 32, bend section 33, tailwater channel 34, gate pier 4, river 5, the water surface 6, datum plane 7.

Specific embodiment

The present invention is further described with reference to the accompanying drawings and detailed description.

As shown in Figure 1 to Figure 4 shown in, it is of the present invention without pressure tail water discharge in tail water lock chamber hydrostatic level calculation method, Middle tail water lock chamber 2 is supplied water by the tail water connection hole 1 of upstream, is then discharged into corresponding river 5 by tail water runner 3.In addition, Under normal conditions, as shown in attached drawing 1 and attached drawing 2, tail water runner 3 will include corresponding counter-slope section 31, straight way section 32, bend The stages such as section 33 and tailwater channel 34, and the structures such as corresponding gate pier 4 can be also provided in 34 upstream end of tailwater channel.

The present invention is to be directed to calculating under above situation without tail water lock chamber hydrostatic level in pressure tail water discharge, to obtain Tail water lock chamber hydrostatic level parameter, the present invention are in the known arragement construction without tail water runner 3 in pressure tail water discharge and specified It is calculated, is specifically comprised the following steps: in the case where flow Q

A, it obtains without the corresponding river water level in 3 exit of tail water runner in pressure tail water discharge；

B, the cross-section of river for taking 3 exit of tail water runner is Outlet Section N₀, take the cross-section of river of 3 inlet of tail water runner For inlet section N_max；Along the Way in for being exported to tail water runner 3 of tail water runner 3, successively compartment of terrain takes multiple cross-sections of river To calculate section N accordingly_i, wherein subscript i takes positive integer, calculates section N_iIt indicates to be exported to tail water runner from tail water runner 3 I-th of the cross-section of river taken between 3 entrance；

C, the river water level obtained using in step A is as Outlet Section N₀The water surface water level h at place₀；Pass through Outlet Section N₀Place Water surface water level h₀, Outlet Section N₀Design parameter and target flow Q Outlet Section N is calculated₀It is flat to locate corresponding water flow Equal flow velocity v₀；

D, datum plane is chosen, then from Outlet Section N₀Start a calculating section N under step-by-step calculation_iLocate corresponding water flow Mean flow rate v_i, and inlet section N is finally calculated_maxLocate corresponding water flow mean flow rate v_max；

Adjacent calculating section N_iWith calculating section N_(i+1)Between calculated using following calculation formula:

z_i+p_i/γ+v_i ²/(2*g)+h_w=z_(i+1)+p_(i+1)/γ+v_(i+1) ²/(2*g)

In formula:

z_iIt indicates to calculate section N under relative datum plane_iLocate average bit energy, also known as position possessed by Unit Weight water body Set head；

p_i/ γ indicates to calculate section N under relative datum plane_iLocate average pressure energy possessed by Unit Weight water body；

v_i ²/ (2*g) indicates to calculate section N under relative datum plane_iLocate mean kinetic energy possessed by Unit Weight water body；

p_iExpression, which acts on, calculates section N_iCentroid on dynamic hydraulic pressure it is strong；

The bulk density of γ expression water；

v_iIt indicates to calculate section N_iWater flow mean flow rate；

G indicates acceleration of gravity；

h_wIndicate adjacent calculating section N_iWith calculating section N_(i+1)Between gross head loss；

E, pass through inlet section N_maxDesign parameter, the inlet section N at place_maxLocate corresponding water flow mean flow rate v_maxAnd finger Inlet section N is calculated in constant flow Q_maxThe water surface water level h at place_max；And the face water level h that fetches water_maxFor without tail water in pressure tail water discharge Lock chamber hydrostatic level.

Specifically, can determine phase river according to the measurement situation rating curve of 5 corresponding position of river in step A Road water level.

For step B, the practical structures of the tail water runner 3 of basis are needed, corresponding calculating section is set along tail water runner 3 N_i, to provide corresponding calculating section N to be segmented calculating in subsequent step D step by step_i。

More specifically, preferably along the Way in for being exported to tail water runner 3 of tail water runner 3 in the present invention, in tail water It is corresponding calculating section N that the cross-section of river at this is taken at the position of the every mutation of the flow boundary condition of runner 3_i；Its purpose It is adjacent calculating section N after segmentation in this way_iWith calculating section N_(i+1)Between corresponding tail water runner section water flow The variation of boundary condition is continuous constant or continuous and even variation, and can relatively conveniently calculate acquisition in these cases Head loss in the section, so that being counted by " the total stream energy conservation of the liquid constant " formula used in step D It calculates and feasibility is provided.

Wherein, may include at the position of the every mutation of flow boundary condition of above-mentioned tail water runner 3 it is following any one At position corresponding to situation: the cross-section of river increases suddenly, the cross-section of river reduces suddenly, the cross-section of river merges, the cross-section of river point Trouble, the cross-section of river are climbed suddenly, the cross-section of river descends broken, bend entrance, bend outlet, trash rack entrance, trash rack to export suddenly, Gate slot entrance and gate slot outlet.Such as cross-section of river N shown in attached drawing 3_iAnd N_(i+1)It is then to move towards to occur to dash forward because of the bottom plate of runner So flow boundary condition caused by variation mutates, therefore is respectively set accordingly at the both ends that suddenly change occurs for bottom plate Cross-section of river N_iAnd N_(i+1)。

In addition, phase is arranged at the position according to the every mutation of above-mentioned flow boundary condition in order to improve computational accuracy The cross-section of river N answered_iAfterwards, if it exists the distance between adjacent two cross-sections of river farther out when, can also increase between It is provided with the additional cross-section of river, to improve computational accuracy.

For step C, the river water level that needs to obtain using in step A is as the water level at tail water runner exit, i.e. conduct Outlet Section N₀The water surface water level h at place₀；Then it can pass through Outlet Section N₀The water surface water level h at place₀, Outlet Section N₀Design Outlet Section N is calculated in parameter and target flow Q₀Locate corresponding water flow mean flow rate v₀；Think in subsequent step D step by step The formula calculated provides initial Outlet Section N₀Corresponding relevant parameter.Specifically, for Outlet Section N in the present invention₀ Locate corresponding water flow mean flow rate v₀Calculating process be summarized as follows:

Outlet Section N as of figure 4₀Shape be rectangle the case where, corresponding Outlet Section area S be phase The product of the width a and height b that answer, wherein width a can be according to tail water runner 3 in Outlet Section N₀Locate corresponding design parameter to obtain It takes, and height b then can be according to Outlet Section N₀The water surface water level h at place₀With tail water runner 3 in Outlet Section N₀The floor elevation at place Between difference determine, and then Outlet Section area S can be calculated；Wherein Outlet Section N₀The floor elevation at place then can root According to tail water runner 3 in Outlet Section N₀Locate corresponding design parameter to obtain；It can be calculated and be obtained in the case where target flow Q with this Obtain corresponding mean flow rate v₀, i.e. v₀=Q/S=Q/ (a*b).Similarly, in step E, corresponding entrance is obtained when being computed Section N_maxLocate corresponding water flow mean flow rate v_maxAfterwards, inlet section N can be passed through_maxDesign parameter, the inlet section N at place_max Locate corresponding water flow mean flow rate v_maxInlet section N is calculated with target flow Q_maxThe water surface water level h at place_max；Then this is special Sharp water intaking face water level h_maxFor without tail water lock chamber hydrostatic level in pressure tail water discharge.

For step D, adjacent calculating section N_iWith calculating section N_(i+1)Between the calculation formula that uses, reality is to adopt With the calculation formula of " the total stream energy conservation of liquid constant " principle, in the formula, equal sign left end is corresponding calculates section N_iLocate the total of water Energy and calculating section N_iWith calculating section N_(i+1)Between head loss h_wThe sum of；And the corresponding calculating section N of equal sign right end_(i+1)Place The gross energy of water.By the calculation formula, section N can be calculated having acquired_iLocate corresponding v_iNext calculate of acquisition is calculated afterwards to break Face N_(i+1)Locate corresponding v_(i+1), therefore by the way that entrance section N can finally be calculated after step-by-step calculation_maxLocate corresponding water Flow mean flow rate v_max；And then entrance section N can finally be calculated_maxWater surface water level h_max.In this way, being obtained calculating State water surface water level h_maxAfterwards, fetch water water level h in face in the present invention_maxDirectly for without tail water lock chamber hydrostatic level in pressure tail water discharge；Recognize For water surface water level h_maxSubstantially equal with tail water lock chamber hydrostatic level；The hydrostatic level knot of required tail water lock chamber 2 is finally obtained with this Fruit.

Without loss of generality, level head z is determined for convenience in calculating process_i, often assume that it is a certain convenient for obtain and The reference plane of calculating is as datum plane 7.More specifically, it can be chosen in the present invention and calculate section N₀To calculating section N_max In horizontal plane where relatively low bottom plate calculated as datum plane 7.

In addition, h in the present invention_wIndicate adjacent calculating section N_iWith calculating section N_(i+1)Between head loss；The parameter Adjacent calculating section N can specifically be passed through_iWith calculating section N_(i+1)Between frictional head loss and the sum of local head loss It obtains.And it can then pass through " hydraulics " teaching material or " hydraulic tunnel design specification " for frictional head loss and local head loss Its corresponding calculation formula is checked in DL/T5195 to determine.

More specifically, it is generally the case that, In often related to the water velocity of corresponding position for local head loss Calculating water velocity v value needed for calculating the local head loss in the present invention is water in basis " hydraulics " teaching material Corresponding flow velocity value requires determination at corresponding site as defined in head costing bio disturbance formula；And for calculating frictional head loss Required calculating water velocity v, which takes, calculates section N_iCorresponding water flow mean flow rate v_iWith calculating section N_(i+1)Corresponding water flow is flat Equal flow velocity v_(i+1)Arithmetic mean of instantaneous value, i.e. v=(v_i+v_(i+1))/2。

It is two neighboring calculating section N referring to shown in attached drawing 3_iWith calculating section N_(i+1)Schematic diagram.In practical calculating In the process, the present invention can carry out the replacement of following calculated result in order to practical calculating: for z_iIt takes and calculates section N_iCentroid O_i To the vertical range L of datum plane 7_i；And for p_i/ γ takes without calculating separately internal parameters and calculates section N_iWater Face is to calculating section N_iCentroid O_iBetween vertical range H_i；Without loss of generality, corresponding z_(i+1)It takes and calculates section N_(i+1) Centroid O_(i+1)To the vertical range L of datum plane 7_(i+1)；And for p_(i+1)/ γ, which then takes, calculates section N_(i+1)The water surface to should Calculate section N_(i+1)Centroid O_(i+1)Between vertical range H_(i+1).Wherein, for centroid O_iDetermine and need according to corresponding Calculating section N_iThe flow passage structure size and the water surface 6 at place corresponding water surface water level h in the position_iCorresponding calculate is obtained to break Face N_iShape, then obtain corresponding centroid O_i；And obtaining corresponding centroid O_i, can be according to calculating section N_iThe water at place Face water level h_iCorresponding L is obtained with datum plane 7_iAnd H_i。

In addition, for ease of calculation, the practical calculating process in the present invention in step D is preferably adopted as tentative calculation mode It is calculated, that is, assumes corresponding calculating section N_(i+1)Locate corresponding water flow mean flow rate v_(i+1)；Then it calculates separately in formula Equal sign both ends as a result, according to result sizes difference, adjust water flow mean flow rate v_(i+1), until the result at equal sign both ends in formula Until equal.

Claims (7)

1. without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge, known without tail water runner (3) in pressure tail water discharge It arragement construction and is calculated in the case where target flow Q, characterized by the following steps:

A, it obtains without the corresponding river water level in tail water runner (3) exit in pressure tail water discharge；

B, the cross-section of river for taking tail water runner (3) exit is Outlet Section N₀, take the cross-section of river of tail water runner (3) inlet For inlet section N_max；Along the Way in for being exported to tail water runner (3) of tail water runner (3), successively compartment of terrain takes multiple water excessively Section is corresponding calculating section N_i, wherein subscript i takes positive integer, calculates section N_iIt indicates to be exported to tail from tail water runner (3) I-th of the cross-section of river taken between the entrance of water flow passage (3)；

C, the river water level obtained using in step A is as Outlet Section N₀The water surface water level h at place₀；Pass through Outlet Section N₀The water at place Face water level h₀, Outlet Section N₀Design parameter and target flow Q Outlet Section N is calculated₀Locate corresponding water flow mean flow Fast v₀；

D, datum plane is chosen, then from Outlet Section N₀Start a calculating section N under tentative calculation step by step_iIt is average to locate corresponding water flow Flow velocity v_i, and inlet section N is finally calculated_maxLocate corresponding water flow mean flow rate v_max；

Adjacent calculating section N_iWith calculating section N_(i+1)Between calculated using following calculation formula:

z_i+p_i/γ+v_i ²/(2*g)+h_w=z_(i+1)+p_(i+1)/γ+v_(i+1) ²/(2*g)

In formula:

z_iIt indicates to calculate section N under relative datum plane_iLocate average bit energy, also known as position water possessed by Unit Weight water body Head；

p_i/ γ indicates to calculate section N under relative datum plane_iLocate average pressure energy possessed by Unit Weight water body；

v_i ²/ (2*g) indicates to calculate section N under relative datum plane_iLocate mean kinetic energy possessed by Unit Weight water body；

p_iExpression, which acts on, calculates section N_iCentroid on dynamic hydraulic pressure it is strong；

The bulk density of γ expression water；

v_iIt indicates to calculate section N_iWater flow mean flow rate；

G indicates acceleration of gravity；

h_wIndicate adjacent calculating section N_iWith calculating section N_(i+1)Between gross head loss；

E, pass through inlet section N_maxDesign parameter, the inlet section N at place_maxLocate corresponding water flow mean flow rate v_maxWith specified stream Inlet section N is calculated in amount Q_maxThe water surface water level h at place_max；And the face water level h that fetches water_maxFor without tail water lock chamber in pressure tail water discharge Hydrostatic level.

2. as described in claim 1 without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge, it is characterised in that: h_wTake phase Adjacent calculating section N_iWith calculating section N_(i+1)Between frictional head loss and the sum of local head loss.

3. as claimed in claim 2 without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge, it is characterised in that: calculate institute Calculating water velocity v needed for the frictional head loss stated, which takes, calculates section N_iCorresponding water flow mean flow rate v_iWith calculating section N_(i+1)Corresponding water flow mean flow rate v_(i+1)Arithmetic mean of instantaneous value, i.e. v=(v_i+v_(i+1))/2。

4. as described in claim 1 without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge, it is characterised in that: z_iTake meter Calculate section N_iCentroid O_iTo the vertical range L of datum plane (7)_i。

5. as claimed in claim 4 without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge, it is characterised in that: p_i/ γ takes Calculate section N_iThe water surface to calculating section N_iCentroid O_iBetween vertical range H_i。

6. as described in any one of claim 1 to 5 without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge, it is special Sign is: in stepb, the water along the Way in for being exported to tail water runner (3) of tail water runner (3), in tail water runner (3) It is corresponding calculating section N that the cross-section of river at this is taken at the position of the stream every mutation of boundary condition_i。

7. as claimed in claim 6 without tail water lock chamber hydrostatic level calculation method in pressure tail water discharge, it is characterised in that: described Position corresponding to situation is included any of the following at the position of the every mutation of flow boundary condition of tail water runner (3) Place: the cross-section of river increases suddenly, the cross-section of river reduces suddenly, the cross-section of river merges, cross-section of river fork, the cross-section of river are climbed suddenly Lower broken, bend entrance, the bend outlet suddenly of slope, the cross-section of river, the outlet of trash rack entrance, trash rack, gate slot entrance and gate slot go out Mouthful.