CN111833011A - Wind resistance assessment method and device applied to engineering construction - Google Patents

Abstract

The wind resistance evaluation method and device applied to engineering construction provided by the invention automatically acquire historical data of wind speed of a measuring point and preprocess the historical data; carrying out appropriateness inspection on the preprocessed data to obtain inspected data; generating a corresponding wind speed calculation result according to the checked data and a preset rule; according to the wind speed calculation result and the first data, an evaluation report is automatically generated, automatic operation and intensive management and control of the whole wind resistance evaluation process of engineering construction are achieved, human errors caused by manual operation in multiple links and long processes and inconvenience in management that archive data cannot be stored in a centralized mode are effectively overcome, data processing is quicker and more objective, and the evaluation result is more scientific and standard. The working efficiency is obviously improved, and the service capability is effectively enhanced.

Description

Wind resistance assessment method and device applied to engineering construction

Technical Field

The invention relates to the technical field of data processing, in particular to a wind resistance evaluation method and device applied to engineering construction.

Background

At present, the economic society is rapidly developed, the quantity of engineering construction projects is greatly increased, and the scale is continuously enlarged. Under the large background of climate change, extreme weather frequently occurs, not only engineering projects are more sensitive to the climate environment, but also adverse effects of some projects on the environment are generally concerned. For example, wind energy resource assessment, photovoltaic power station site selection, bridge construction and the like all relate to the calculation of the maximum wind speed in 50 years or 100 years. Therefore, the analysis of wind parameters and the calculation of designed wind speed are particularly important in engineering construction, and clear requirements are also put forward on wind load in the building design specification.

At present, when wind resistance evaluation calculation is carried out on engineering construction projects, data needs to be manually imported and calculated, and finally an evaluation report is manually written, so that the report conclusion is greatly influenced by the main appearance, human errors are easy to generate, and the working efficiency is low.

Therefore, a wind resistance evaluation method and a wind resistance evaluation device applied to engineering construction are needed, which can realize full-process automatic operation and intensive management and control such as data acquisition, inspection, calculation, report compiling, statistical analysis and the like, remarkably improve the working efficiency, effectively collect resources and really enhance the service capacity.

Disclosure of Invention

Technical problem to be solved

In order to solve the above problems in the prior art, the invention provides a wind resistance evaluation method and device applied to engineering construction, which can realize full-process automatic operation and intensive management and control such as data acquisition, inspection, calculation, report compiling, statistical analysis and the like, significantly improve the working efficiency, effectively collect resources, and really enhance the service capability.

(II) technical scheme

In order to achieve the purpose, the invention adopts a technical scheme that:

a wind resistance evaluation method applied to engineering construction comprises the following steps:

s1, automatically collecting historical data of wind speed at a measuring point and preprocessing the historical data;

s2, carrying out appropriateness test on the preprocessed data to obtain tested data;

s3, generating a corresponding wind speed calculation result according to the checked data and a preset rule;

and S4, automatically generating an evaluation report according to the wind speed calculation result and the first data.

In order to achieve the purpose, the invention adopts another technical scheme as follows:

a wind resistance assessment device for engineering construction, comprising a memory, a processor and a computer program stored on the memory and operable on the processor, the processor implementing the following steps when executing the program:

s1, automatically collecting historical data of wind speed at a measuring point and preprocessing the historical data;

s2, carrying out appropriateness test on the preprocessed data to obtain tested data;

s3, generating a corresponding wind speed calculation result according to the checked data and a preset rule;

and S4, automatically generating an evaluation report according to the wind speed calculation result and the first data.

(III) advantageous effects

The invention has the beneficial effects that: historical data of wind speed of a measuring point is automatically collected and preprocessed; carrying out appropriateness inspection on the preprocessed data to obtain inspected data; generating a corresponding wind speed calculation result according to the checked data and a preset rule; according to the wind speed calculation result and the first data, an evaluation report is automatically generated, automatic operation and intensive management and control of the whole wind resistance evaluation process of engineering construction are achieved, human errors caused by manual operation in multiple links and long processes and inconvenience in management that archive data cannot be stored in a centralized mode are effectively overcome, data processing is quicker and more objective, and the evaluation result is more scientific and standard. The working efficiency is obviously improved, and the service capability is effectively enhanced.

Drawings

FIG. 1 is a flow chart of a wind resistance assessment method applied to engineering construction according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a wind resistance evaluation device applied to engineering construction according to an embodiment of the present invention.

[ description of reference ]

1: the wind resistance evaluation device is applied to engineering construction;

2: a memory;

3: a processor.

Detailed Description

For the purpose of better explaining the present invention and to facilitate understanding, the present invention will be described in detail by way of specific embodiments with reference to the accompanying drawings.

Example one

Referring to fig. 1, a wind resistance assessment method applied to engineering construction includes the steps of:

s1, automatically collecting historical data of wind speed at a measuring point and preprocessing the historical data;

the pretreatment specifically comprises the following steps:

and carrying out uniformity inspection on the historical data to obtain first data, and correcting the first data by adopting a ratio correction method to obtain corrected data.

S2, carrying out appropriateness test on the preprocessed data to obtain tested data;

step S2 specifically includes:

and carrying out appropriateness check on the corrected data through t check or f check to obtain checked data.

S3, generating a corresponding wind speed calculation result according to the checked data and a preset rule;

step S3 specifically includes:

and fitting the checked data through the Gunn Bell distribution to obtain wind speed calculation results in different reappearance periods.

And S4, automatically generating an evaluation report according to the wind speed calculation result and the first data.

The first data includes air temperature, air pressure, water air pressure, and average wind speed.

Example two

In this embodiment, a specific application scenario is combined to further explain how the wind resistance evaluation method applied to engineering construction is implemented:

s1, automatically collecting historical data of wind speed at a measuring point and preprocessing the historical data;

the pretreatment specifically comprises the following steps:

and carrying out uniformity inspection on the historical data to obtain first data, and correcting the first data by adopting a ratio correction method to obtain corrected data.

Specifically, since the observation environment around the processing point may change to some extent, which results in discontinuity of the maximum wind speed sequence collected over ten minutes, it is necessary to perform uniformity check on the long-term wind speed data and adopt a ratio correction method to correct the value of the different years.

S2, carrying out appropriateness test on the preprocessed data to obtain tested data;

step S2 specifically includes:

and carrying out appropriateness check on the corrected data through t check or f check to obtain checked data.

S3, generating a corresponding wind speed calculation result according to the checked data and a preset rule;

step S3 specifically includes:

and fitting the checked data through the Gunn Bell distribution to obtain wind speed calculation results in different reappearance periods.

And S4, automatically generating an evaluation report according to the wind speed calculation result and the first data.

The first data includes air temperature, air pressure, water air pressure, and average wind speed.

Specifically, the wind resistance evaluation report comprises wind direction and wind speed data output wind rose diagrams; and outputting the wind shear index, the turbulence intensity, the maximum reproduction period wind speed at different heights, the gunn bell fitting curve chart and the wind pressure according to the calculation result of the wind speed calculation module so as to facilitate related technicians to design the wind-resistant structure of the building.

EXAMPLE III

Referring to fig. 2, a wind resistance assessment apparatus 1 applied to engineering construction includes a memory 2, a processor 3 and a computer program stored on the memory 2 and operable on the processor 3, wherein the processor 3 implements the steps of the first embodiment when executing the program.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (10)

1. A wind resistance assessment method applied to engineering construction is characterized by comprising the following steps:

s1, automatically collecting historical data of wind speed at a measuring point and preprocessing the historical data;

s2, carrying out appropriateness test on the preprocessed data to obtain tested data;

s3, generating a corresponding wind speed calculation result according to the checked data and a preset rule;

and S4, automatically generating an evaluation report according to the wind speed calculation result and the first data.

2. The wind resistance assessment method applied to engineering construction according to claim 1, wherein the pretreatment specifically comprises:

and carrying out uniformity inspection on the historical data to obtain first data, and correcting the first data by adopting a ratio correction method to obtain corrected data.

3. The wind resistance evaluation method applied to engineering construction according to claim 2, wherein the step S2 is specifically:

and carrying out appropriateness check on the corrected data through t check or f check to obtain checked data.

4. The wind resistance evaluation method applied to engineering construction according to claim 1, wherein the step S3 is specifically:

and fitting the checked data through the Gunn Bell distribution to obtain wind speed calculation results in different reappearance periods.

5. The wind resistance assessment method applied to engineering construction according to claim 1, wherein the first data comprises the measurement point air temperature, air pressure, water air pressure and average wind speed.

6. A wind resistance assessment device for engineering construction, comprising a memory, a processor and a computer program stored on the memory and operable on the processor, wherein the processor executes the program to perform the steps of:

s1, automatically collecting historical data of wind speed at a measuring point and preprocessing the historical data;

s2, carrying out appropriateness test on the preprocessed data to obtain tested data;

s3, generating a corresponding wind speed calculation result according to the checked data and a preset rule;

and S4, automatically generating an evaluation report according to the wind speed calculation result and the first data.

7. The wind resistance evaluation device applied to engineering construction according to claim 6, wherein the pretreatment is specifically:

and carrying out uniformity inspection on the historical data to obtain first data, and correcting the first data by adopting a ratio correction method to obtain corrected data.

8. The wind resistance evaluation device applied to engineering construction according to claim 7, wherein the step S2 is specifically as follows:

and carrying out appropriateness check on the corrected data through t check or f check to obtain checked data.

9. The wind resistance evaluation device applied to engineering construction according to claim 6, wherein the step S3 is specifically as follows:

and fitting the checked data through the Gunn Bell distribution to obtain wind speed calculation results in different reappearance periods.

10. The wind-resistant assessment device applied to engineering construction according to claim 6, wherein said first data comprises air temperature, air pressure, water air pressure and average wind speed.

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