论文部分内容阅读
非均岩石高温岩体是3千米、温度300℃的地下深处的高温岩石,研究非均岩石高温岩体地热开发经济产能,通过构建地热开发经济效能经济指数预测模型,分析产能和开发成本的关系,为非均岩石高温岩体地热开发提供数据参考。非均岩石高温岩体地热开发的效能分析是一个多参量约束的博弈模型,需要从勘探难度和勘探费等方面出发计算非均岩石高温岩体地热开发的成本,从环境保护的经济收益上进行效能博弈。提出一种基于多参量互相关的合作博弈的非均岩石高温岩体地热开发经济效能分析模型,首先分析非均岩石高温岩体地的地质构造和地热开发的流程,然后进行了非均岩石高温岩体地地热开发的经济效能影响参量分析,采用多参量互相关的合作博弈方法进行经济效能定量分析模型构建。通过数据分析和仿真实验,实现了非均岩石高温岩体地热开发经济效能分析定量分析和性能评估,为进行相关工程实践提供了理论参考和数学模型指导。
Nonhomogeneous rock and high temperature rock mass is a 3 km high temperature rock with a depth of 300 ℃. The economic productivity of geothermal development in nonhomogeneous rock and high temperature rock mass is studied. By forecasting economic efficiency index of geothermal energy, the productivity and development cost , Providing data reference for the geothermal development of non-homogeneous rock and high temperature rock mass. The effectiveness analysis of geothermal development in nonhomogeneous rock and high temperature rock mass is a multi-parameter constrained game model, which needs to calculate the cost of geothermal development in non-uniform rock and high temperature rock mass from aspects of exploration difficulty and exploration cost, and proceeds from the economic benefit of environmental protection Efficiency game. This paper presents a geoeconomic model for geothermal development in nonhomogeneous rock and high temperature rock mass based on cooperative game with multi-parameter cross-correlation. Firstly, the geologic structure and geothermal development process of non-uniform rock and high temperature rock mass are analyzed. Then, The economic efficiency of the geothermal development in rock mass is analyzed by parameter analysis, and the cooperative game method of multi-parameter cross-correlation is used to construct the economic efficiency quantitative analysis model. Through data analysis and simulation experiments, the economic analysis and performance evaluation of geothermal development in nonhomogeneous rock and high temperature rock mass have been realized, which provides theoretical reference and guidance for mathematical model for the relevant engineering practice.