Geothermal clean energy deep and shallow linkage carbon reduction and efficiency improvement monitoring system

Abstract

The invention discloses a geothermal clean energy depth-and-depth linkage carbon-reduction synergistic monitoring system, relates to the technical field of exploration, and aims to solve the technical problems that in the prior art, exploration capacity is lagged, geothermal clean energy depth-and-depth linkage carbon-reduction information analysis efficiency is poor, geothermal clean energy data information cannot be observed in real time, and detection efficiency is poor. In order to solve the problems of poor monitoring strength of energy and environment cleanness, lagging analysis efficiency and the like, the invention designs a geothermal clean energy depth linkage carbon reduction and efficiency improvement monitoring system which comprises a geothermal clean energy data fusion module, a dimension reduction module, an analysis module and an early warning module. Fusion of different data information is achieved through the geothermal clean energy data fusion module, processing of complex data information is achieved through the dimension reduction module, the data analysis capability is improved through the analysis module, and early warning is conducted on abnormal data information in time through the early warning module. The geothermal clean energy analysis and monitoring capability is improved.

Description

technical field [0001] The invention relates to the technical field of surveying, and more specifically to a geothermal clean energy deep-shallow linkage carbon reduction efficiency monitoring system. Background technique [0002] Geothermal energy is a new type of clean energy. Clean energy generally refers to energy that can be directly used for production and life without emitting pollutants. Geothermal energy is mainly the energy converted from the heat generated by lava on the earth. It is a green, low-carbon, recyclable and clean energy. Geothermal energy has the characteristics of large reserves, wide distribution, clean and environmentally friendly, stable and reliable. It also includes various forms, such as shallow geothermal energy, medium-deep geothermal energy, deep rock thermal energy, etc. In the process of maintaining geothermal clean energy, how to realize the deep-shallow linkage of geothermal clean energy to reduce carbon and increase efficiency is an u...

AI Technical Summary

Problems solved by technology

In the existing technology, the exploration ability is lagging behind, the analysis efficiency of geothermal clean energy deep-shallow linkage carbon reduction information is poor, it is impossible to observe the data information of geothermal clean energy in real time, the monitoring of energy and environmental cleanliness is poor, and the analysis efficiency lags behind

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