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Computing system for evaluating parameters of comprehensive energy equipment

A technology of equipment parameters and calculation system, which is applied in the field of simulation platform, can solve the problems of inconvenient collection of comprehensive energy equipment profit factor data, inconvenient operation of staff, and inability to unify multiple energy outputs, so as to increase practicability and facilitate calculation The effect, the effect that guarantees the calculated effect

Pending Publication Date: 2022-07-19
ENNEW DIGITAL TECH CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to provide a calculation system for evaluating the parameters of comprehensive energy equipment, so as to solve the above-mentioned background technology that the energy equipment cannot intuitively express the value of the profit of the equipment within a certain period of time, and cannot perform multi-energy output. Unified, so that it is inconvenient to calculate as a whole, and it is inconvenient for staff to operate as a whole. At the same time, it is inconvenient to collect a large number of comprehensive energy equipment profit factor data, and the overall protection effect on data is reduced, thereby reducing the overall practicality. question

Method used

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  • Computing system for evaluating parameters of comprehensive energy equipment

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Effect test

Embodiment 1

[0045] Step 1: Determine the type of equipment required to obtain the profit factor, the type of input / output energy, and the standard energy, save the obtained value for easy calculation and subsequent use, and use the first algorithm to uniformly calculate the energy output part. The algorithm module has m kinds of energy outputs, choose one of them as the standard energy, and record the selling price of the standard energy as S, then remove the standard energy, there are m-1 kinds of energy outputs, r j is the ratio of the standard energy produced to the jth energy produced in the same time, then the total income of the output part is then the total income of the output part is Ensure the overall unified calculation effect;

[0046] Step 2: Calculate the energy input part of the device through the second algorithm module, and the second algorithm requires n kinds of energy input, Q i is the value of the input i-th energy, B i For the purchase price of the i-th energy, a ...

Embodiment 2

[0050] Step 1: Determine the type of equipment required to obtain the profit factor, the type of input / output energy, and the standard energy, save the obtained value for easy calculation and subsequent use, and use the first algorithm to uniformly calculate the energy output part. The algorithm module has m kinds of energy outputs, choose one of them as the standard energy, and record the selling price of the standard energy as S, then remove the standard energy, there are m-1 kinds of energy outputs, r j is the ratio of the standard energy produced to the jth energy produced in the same time, then the total income of the output part is then the total income of the output part is Ensure the overall unified calculation effect;

[0051] Step 2: Calculate the energy input part of the device through the second algorithm module, and the second algorithm requires n kinds of energy input, Q i is the value of the input i-th energy, B i For the purchase price of the i-th energy, a ...

Embodiment 3

[0055] Step 1: Determine the type of equipment required to obtain the profit factor, the type of input / output energy, and the standard energy, save the obtained value for easy calculation and subsequent use, and use the first algorithm to uniformly calculate the energy output part. The algorithm module has m kinds of energy outputs, choose one of them as the standard energy, and record the selling price of the standard energy as S, then remove the standard energy, there are m-1 kinds of energy outputs, r j is the ratio of the standard energy produced to the jth energy produced in the same time, then the total income of the output part is then the total income of the output part is Ensure the overall unified calculation effect;

[0056] Step 2: The third algorithm module calculates the levelized unit energy cost, the levelized unit energy cost = the present value of the cost in the life cycle / the present value of the production capacity in the life cycle, and calculates the eq...

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Abstract

The invention discloses a calculation system for evaluating parameters of comprehensive energy equipment, which comprises an evaluation system body, the evaluation system body internally comprises a global model, an evaluation model A, an evaluation model B and an evaluation model C, and the global model internally comprises a first algorithm module, a second algorithm module, a third algorithm module and a profit factor formula module. According to the calculation system for evaluating the parameters of the comprehensive energy equipment, the comprehensive energy scene, the profit factor, the calculation process, the required parameter profit factor application scene, the leveling unit energy cost and the effect of the profit factor in production are combined with a learning framework, so that the parameters of the comprehensive energy equipment are conveniently and fully calculated; the three algorithms unify energy output and facilitate calculation, so that operation of workers is facilitated, guidance is provided for follow-up construction of a new comprehensive energy station through collection of a large amount of comprehensive energy equipment profit factor data, data privacy protection is achieved, and the model popularization degree is improved.

Description

technical field [0001] The invention relates to the field of simulation platforms, in particular to a computing system for evaluating comprehensive energy equipment parameters. Background technique [0002] There are many types of equipment in the integrated energy system, including: gas internal combustion engine, waste heat boiler, steam boiler, bromine cooler, photovoltaic equipment, ground source heat pump, wind energy equipment, energy storage equipment, etc. The same energy is generated and supplied to the user, and considering the difference in the cost of the input energy of the equipment, the difference in the profitability of the energy generated, and the value of the additional products during production, in industrial production, it is necessary to control the energy in the entire integrated energy system. The energy supply equipment is selected to maximize profits. To choose the equipment in the system, it is necessary to obtain the evaluation parameters of each...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/27G06Q10/06G06Q50/06G06F21/62
CPCG06F30/27G06Q10/0639G06Q50/06G06F21/6245
Inventor 张燧
Owner ENNEW DIGITAL TECH CO LTD
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