CN111428185A - Professional algorithm for purifying efficiency of purifier - Google Patents
Professional algorithm for purifying efficiency of purifier Download PDFInfo
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- CN111428185A CN111428185A CN202010205641.6A CN202010205641A CN111428185A CN 111428185 A CN111428185 A CN 111428185A CN 202010205641 A CN202010205641 A CN 202010205641A CN 111428185 A CN111428185 A CN 111428185A
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- purifier
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F17/00—Digital computing or data processing equipment or methods, specially adapted for specific functions
- G06F17/10—Complex mathematical operations
- G06F17/11—Complex mathematical operations for solving equations, e.g. nonlinear equations, general mathematical optimization problems
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C15/00—Details
- F24C15/20—Removing cooking fumes
Abstract
The invention discloses a professional algorithm for purifying efficiency of a purifier, which comprises the following steps of firstly acquiring working condition data of the purifier through a sensor, and obtaining the real-time operation efficiency of an oil fume purifier through a professional algorithm of a cloud background, wherein an algorithm formula is η ═ k ═ IB (30 × (30+ D ×) m) IA [. 100%. the invention acquires the working condition data of a high-voltage electric field of the purifier through the sensor, provides a reliable data basis for equipment cleaning and maintenance, calculates the purification efficiency of the oil fume purifier, forms a purification efficiency statistical report, and provides an early warning for the operation and maintenance state of the oil fume purifier so as to achieve the purpose of enabling the oil fume purification equipment to operate in the optimal state.
Description
Technical Field
The invention relates to the technical field of purification efficiency of oil fume purifiers, in particular to a professional algorithm for the purification efficiency of a purifier.
Background
For the emission of catering oil fume, most of the oil fume treatment of catering enterprises and residential buildings adopts a high-voltage electrostatic oil fume purifier, and the oil fume can be discharged up to the standard after being ionized and deposited by a high-voltage electric field. At present, after a high-voltage electric field of a purifier operates for a period of time, thick oil smoke is deposited on a collecting plate of the high-voltage electric field, and the purification efficiency of the high-voltage electric field is reduced along with the increase of the oil smoke deposits. However, after the oil fume purification equipment is installed in catering enterprises, due to the lack of related equipment maintenance consciousness, the emission can reach the standard by installing the purifier, the cleaning and maintenance are not needed, and the running state of the equipment cannot be seen; or professional maintenance experience is lacked, and the cleaning maintenance period of the high-voltage electric field is determined only by manual judgment, so that the purification efficiency of the high-voltage electric field of the purifier is reduced due to too much oil stain deposition, the oil smoke discharge cannot meet the national discharge requirement, and the environmental protection penalty of the administrative department is received. Administrative law enforcement personnel also do not have relevant law enforcement bases and serve as data support of administrative punishment, so how to calculate the purification efficiency of the oil fume purifier becomes the urgent need of current catering oil fume treatment.
Disclosure of Invention
The invention aims to provide a professional algorithm for purifying efficiency of a purifier, which acquires working condition data of a high-voltage electric field of the purifier through a sensor, provides reliable data basis for equipment cleaning and maintenance, calculates the purifying efficiency of the oil smoke purifier, forms a statistical report form of the purifying efficiency, and gives an early warning for the operation and maintenance state of the oil smoke purifier, so that the aim of enabling the oil smoke purifying equipment to operate in the optimal state is fulfilled, and the problems in the background art are solved.
In order to achieve the purpose, the invention provides the following technical scheme:
a professional algorithm for purification efficiency of a purifier, comprising the steps of:
step 1: firstly, acquiring working condition data of the purifier through a sensor, and calculating through a professional algorithm of a cloud background;
step 2: and obtaining the real-time operating efficiency of the oil fume purifier, wherein an algorithm formula is as follows:
η=k*[30*IB/(30+D*m)*IA]*100%。
η, purifying efficiency of the purifier;
IA: the full-effect current value of the electric field in the optimal state;
IB: detecting the output current of the purifier in real time;
k: a purification efficiency coefficient;
d, operation days after operation and maintenance;
m: the running time coefficient.
Further, IA is a current value of the high-voltage electric field when the purifier is in an optimal working state.
Further, IB is an output current value of the sensor in real time during the working state of the purifier.
Furthermore, the device also comprises a purification efficiency coefficient k, operation days D after operation and maintenance and an operation time coefficient m, wherein the purification efficiency coefficient k is an operation condition comprehensive index comprehensively considering the high-voltage electric field, and is a coefficient value with a reference value obtained through repeated tests.
Further, the operation days D after the operation and maintenance is the number of days of accumulated operation of the device after the last operation and maintenance of the electric field of the purifier, and the operation and maintenance ledger data counted by the cloud platform needs to be referred to.
Furthermore, the operation time coefficient m is an influence coefficient of the operation time length on the purification efficiency, and is a time factor coefficient value obtained through repeated tests by comprehensively considering the influence of time factors on the electric field of the purifier.
Compared with the prior art, the invention has the beneficial effects that:
according to the invention, the working condition data of the high-voltage electric field of the purifier is acquired by the sensor, reliable data basis is provided for equipment cleaning and maintenance through the professional algorithm, the purification efficiency of the oil fume purifier is calculated, a statistical report of the purification efficiency is formed, early warning is provided for the operation and maintenance state of the oil fume purifier, and the purpose of enabling the oil fume purification equipment to operate in the optimal state is achieved.
Detailed Description
The following examples will explain the present invention in detail, however, the present invention is not limited thereto. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
A professional algorithm for purification efficiency of a purifier, comprising the steps of:
step 1: firstly, acquiring working condition data of the purifier through a sensor, and calculating through a professional algorithm of a cloud background;
step 2: and obtaining the real-time operating efficiency of the oil fume purifier, wherein an algorithm formula is as follows:
η=k*[30*IB/(30+D*m)*IA]*100%。
η, purifying efficiency of the purifier;
IA: the full-effect current value of the electric field in the optimal state;
IB: detecting the output current of the purifier in real time;
k: a purification efficiency coefficient;
d, operation days after operation and maintenance;
m: the running time coefficient.
The professional algorithm is unique to the invention, and I contained in the professional algorithmAThe current value is the current value when the high-voltage electric field is fully effective and is measured when the purifier works in the optimal state. I isBAnd acquiring the output current value of the purifier in the working state in real time for the sensor. The professional algorithm formula also comprises a purification efficiency coefficient k, operation days after operation and maintenance D and an operation time coefficient m, wherein the purification efficiency coefficient k is an operation condition comprehensive index comprehensively considering the high-voltage electric field, and is a coefficient value with a reference value obtained through repeated tests. The operation days D after the operation and maintenance is the accumulated operation days of the equipment after the last operation and maintenance of the electric field of the purifier, and the operation and maintenance ledger data counted by the cloud platform needs to be referred. The operation time coefficient m is the influence coefficient of the operation time length on the purification efficiency, the influence of the time factor on the electric field of the purifier is comprehensively considered, and the time factor coefficient value is obtained through repeated tests. The data of the purification efficiency of the purifier can be used as reference for operation and maintenance of administrative law enforcement personnel, catering enterprises and operation and maintenance personnel, and the catering enterprises are guided to carry out cleaning and operation and maintenance according to the operation efficiency of the purifier.
In summary, the following steps: according to the invention, the working condition data of the high-voltage electric field of the purifier is acquired by the sensor, reliable data basis is provided for equipment cleaning and maintenance through the professional algorithm, the purification efficiency of the oil fume purifier is calculated, a statistical report of the purification efficiency is formed, early warning is provided for the operation and maintenance state of the oil fume purifier, and the purpose of enabling the oil fume purification equipment to operate in the optimal state is achieved.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. A professional algorithm for purifying efficiency of a purifier is characterized by comprising the following steps:
step 1: firstly, acquiring working condition data of the purifier through a sensor, and calculating through a professional algorithm of a cloud background;
step 2: and obtaining the real-time operating efficiency of the oil fume purifier, wherein an algorithm formula is as follows:
η=k*[30*IB/(30+D*m)*IA]*100%。
2. the algorithm of claim 1, wherein IA is the current value of the high voltage electric field at full efficiency measured during the optimal operation of the purifier.
3. The expert algorithm for purification efficiency of a purifier as claimed in claim 1, wherein said IB is a value of an output current of the sensor in real time when the purifier is in operation.
4. The professional algorithm for purifying efficiency of the purifier as claimed in claim 1, further comprising a purifying efficiency coefficient k, a number of operation days after operation and maintenance D and an operation time coefficient m, wherein the purifying efficiency coefficient k is an operation condition comprehensive index comprehensively considering the high-voltage electric field, and is a coefficient value with a reference value obtained through repeated experiments.
5. The professional algorithm for the purification efficiency of the purifier of claim 4, wherein the operation days D after the operation and maintenance is the accumulated operation days of the equipment after the last operation and maintenance of the purifier field, and the operation and maintenance ledger data needs to be counted by referring to the cloud platform.
6. The expert algorithm for purifying efficiency of a purifier as claimed in claim 4, wherein the running time coefficient m is the influence coefficient of the running time period on the purifying efficiency, and is the time factor coefficient value obtained by repeated experiments by comprehensively considering the influence of the time factor on the electric field of the purifier.
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Application publication date: 20200717 |