Original title: 2024 China Electric Power Survey and Design Industry Construction Planning and Development Trend Analysis Report.
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Docking personnel": [Zhou Wen].
Last revision date: [January 2024].
Table of Contents of Charts. Figure 1: Impact of power system reform on the E&P industry.
Figure 2: Analysis of relevant policies and regulations.
Figure 3: Main standards and specifications of the electric power survey and design industry.
Figure 4: China's GDP growth trend from 2017 to 2024 (unit: %)
Figure 5: Comparison of the correlation between China's GDP and power survey and design industry from 2017 to 2024 (unit: %)
Figure 6: Year-on-year growth rate of industrial added value of enterprises above designated size from 2017 to 2024 (unit: %)
Figure 7: Comparison of the correlation between industrial added value and power survey and design industry from 2017 to 2024 (unit: %)
Figure 8: Technical status of the electric power survey and design industry.
Figure 9: Engineering consulting results of the national electric power survey and design industry in 2024.
Figure 10: 2024 QC winners of the national electric power survey and design industry.
Figure 11: Total assets of the electric power survey and design industry from 2017 to 2024 (unit: 100 million yuan).
Figure 12: 2017-2024 new contract value in the electric power survey and design industry (unit: 100 million yuan, %)
Figure 13: 2017-2024 total output value of electric power survey and design industry (unit: 100 million yuan, %)
Figure 14: Proportion of total output value of electric power survey and design industry (unit: %)
Figure 15: The number of personnel in the electric power survey and design industry from 2017 to 2024 (unit: person).
Figure 16: Composition of employees in the electric power survey and design industry (unit: %)
Figure 17: Operating income of electric power survey and design industry from 2017 to 2024 (unit: 100 million yuan, %)
Figure 18: Total profit of electric power survey and design industry from 2017 to 2024 (unit: 100 million yuan).
Figure 19: Net profit of electric power survey and design industry from 2017 to 2024 (unit: 100 million yuan).
Chart 20: Sales margin of the electric power survey and design industry from 2017 to 2024 (unit: %)
Chart 21: 2017-2024 net profit margin of electric power survey and design industry (unit: %)
Figure 22: Return on total assets of the power survey and design industry from 2017 to 2024 (unit: %)
Figure 23: Business structure of China's electric power survey and design industry (unit: %)
Figure 24: 2017-2024 general contracting contract value of electric power survey and design industry (unit: 100 million yuan, %)
Figure 25: 2017-2024 survey and design consulting business contract value of electric power survey and design industry (unit: 100 million yuan, %)
Figure 26: 2017-2024 power survey and design industry supervision business contract value (unit: 100 million yuan, %)
Figure 27: 2017-2024 overseas business contract value of electric power survey and design industry (unit: 100 million yuan, %)
Figure 28: 2017-2024 overseas general contracting contract value of electric power survey and design industry (unit: 100 million yuan, %)
Figure 29: 2017-2024 Overseas survey, design and consulting services contract value of the power survey and design industry (unit: 100 million yuan, %)
Figure 30: Design capacity of power generation engineering (unit: MW).
Figure 31: Design capacity of power generation projects by membership level – initial feasibility stage (unit: %)
Figure 32: Design capacity of power generation projects by subordinate level – feasibility study stage (unit: %)
Figure 33: Design capacity of power generation projects by subordinate level – initial design stage (unit: %)
Figure 34: Design capacity of power generation projects by subordinate level - construction drawing stage (unit: %)
Exhibit 35: Design capacity of power generation projects by group – initial stage (unit: %)
Exhibit 36: Design capacity of power generation projects by group – feasibility study stage (unit: %)
Exhibit 37: Design capacity of power generation projects by group – initial stage (unit: %)
Figure 38: Design capacity of power generation projects by group – construction drawing stage (unit: %)
Figure 39: Substation engineering design capacity (unit: MVA).
Figure 40: Design capacity of substation projects by subordinate level - initial design stage (unit: %)
Figure 41: Design capacity of substation projects by subordinate level - construction drawing stage (unit: %)
Figure 42: Substation engineering design capacity by group – initial design stage (unit: %)
Figure 43: Design capacity of substation projects by group – construction drawing stage (unit: %)
Figure 44: Transmission engineering design capacity (in km).
Figure 45: Design capacity of transmission projects by subordinate level - initial design stage (unit: %)
Figure 46: Design capacity of power transmission projects by subordinate level - construction drawing stage (unit: %)
Exhibit 47: Design capacity of power transmission projects by group – initial stage (unit: %)
Figure 48: Design capacity of power transmission projects by group – construction drawing stage (unit: %)
Figure 49: Competitive analysis of electric power survey and design firms.
Exhibit 50: Potential Entrant Threat Analysis.
Figure 51: Pattern of total new contracts signed by different subordinate levels in the power survey and design industry (unit: 100 million yuan).
Figure 52: Pattern of new overseas contracts signed by different subordinate levels in the power survey and design industry (unit: 100 million yuan).
Figure 53: Output value pattern of different subordinate levels in the electric power survey and design industry (unit: 100 million yuan).
Chart 54: The pattern of financial indicators of different subordinate levels in the electric power survey and design industry (unit: 10,000 yuan).
Figure 55: General contracting business pattern of different subordinate levels in the electric power survey and design industry (unit: 10,000 yuan).
Figure 56: Design capacity of power generation projects of different subordinate levels in the power survey and design industry (unit: MW).
Figure 57: Design capacity of substation engineering at different levels in the power survey and design industry (unit: MVA).
Figure 58: Design capacity of power transmission projects of different subordinate levels in the power survey and design industry (unit: km).
Figure 59: Human resource pattern of different subordinate levels in the power survey and design industry (unit: people, %)
Figure 60: The total amount of new contracts signed by each group in the power survey and design industry (unit: 10,000 yuan).
Figure 61: Pattern of new overseas contracts signed by each group in the electric power survey and design industry (unit: 10,000 yuan).
Figure 62: The output value pattern of each group in the electric power survey and design industry (unit: 10,000 yuan).
Chart 63: Financial index pattern of each group in the electric power survey and design industry (unit: 10,000 yuan).
Figure 64: The general contracting business pattern of each group in the electric power survey and design industry (unit: 10,000 yuan).
Figure 65: Design capacity of power generation projects by group in the power survey and design industry (unit: MW).
Figure 66: Design capacity of substation engineering of each group in the power survey and design industry (unit: MVA).
Figure 67: Design capacity of power transmission projects by group in the power survey and design industry (unit: km).
Exhibit 68: Human resource pattern of each group in the power survey and design industry (unit: people, %)
Figure 69: Capacity and growth of full-caliber power generation equipment in China from 2017 to 2024 (unit: 100 million kilowatts, %)
Figure 70: Investment structure of power supply engineering construction in China in 2024 (unit: %)
Figure 71: China's investment in thermal power construction from 2017 to 2024 (unit: 100 million yuan).
Figure 72: China's installed thermal power capacity and growth rate from 2017 to 2024 (unit: 10,000 kW, %)
Exhibit 73: China's installed thermal power capacity structure in 2024 (unit: %)
Figure 74: List of key thermal power projects built from 2017 to 2024 (investment of more than 3 billion yuan) (unit: 10,000 kilowatts).
Figure 75: Investment in hydropower construction from 2017 to 2024 (unit: 100 million yuan).
Figure 76: Installed hydropower capacity from 2017 to 2024 (unit: 10,000 kilowatts).
Figure 77: Structure of China's installed hydropower capacity in 2024 (unit: %)
Figure 78: China's hydropower installed capacity planning from 2024 to 2031 (unit: 100 million kilowatts, 10,000 kilowatts).
Figure 79: Investment in nuclear power construction from 2017 to 2024 (unit: 100 million yuan).
Figure 80: National installed nuclear power capacity from 2017 to 2024 (unit: 10,000 kilowatts).
Figure 81: Key contents of the Medium and Long-Term Development Plan for Nuclear Power (2024-2031).
Figure 82: Scale of investment in wind power construction from 2017 to 2024 (unit: 100 million yuan).
Figure 83: China's installed wind power capacity from 2017 to 2024 (unit: 10,000 kilowatts).
Exhibit 84: China's wind power development scenario from 2024 to 2031 and** (unit: GW, %)
Figure 85: China's installed solar PV capacity from 2017 to 2024 (in 10,000 kilowatts).
Figure 86: The scale and growth rate of China's power grid investment from 2017 to 2024 (unit: 100 million yuan, %)
Figure 87: Average annual investment scale of power grid intelligence at each stage (unit: 100 million yuan).
Figure 88: 2024-2031 intelligent investment amount, investment ratio and ** trend chart (unit: 100 million yuan, %)
Figure 89: Distribution of investment structure in smart grid segment (unit: %)
Figure 90: Distribution of investment ratio in each link of smart grid at each stage (unit: %)
Figure 91: Intelligent investment structure by region at different stages (unit: 100 million yuan, %)
Figure 92: Phased development of China's smart grid from 2024 to 2031.
Figure 93: 2017-2024 State Grid added 220 kV and above transmission lines and substation capacity (unit: 10,000 km, 100 million kVA).
Figure 94: The main characteristics of China's smart grid in the future (unit: 10,000 km, 100 million kVA).
Exhibit 95: D-B EPC model.
Exhibit 96: EPC EPC model.
Exhibit 97: Comparison of the different characteristics of EPC general contracting and traditional models.
Figure 98: Current situation of the organizational structure of an electric power design institute.
Exhibit 99: Breakdown of Services Industries.
Exhibit 100: Customers by Value.
Exhibit 101: 2024 Publicity Table of Credit Evaluation Results of Enterprises in the Electric Power Survey and Design Industry.
Exhibit 102: China Electric Power Engineering Consulting Group*** Basic Information Table.
Exhibit 103: Organizational chart of China Electric Power Engineering Consulting Group***.
Chart 104: Proportion of education of employees of China Electric Power Engineering Consulting Group (unit: %)
Exhibit 105: Proportion of employee titles of China Electric Power Engineering Consulting Group (unit: %)
Exhibit 106: Analysis of the advantages and disadvantages of China Electric Power Engineering Consulting Group.
Exhibit 107: China Electric Power Engineering Consulting Group North China Electric Power Design Institute Engineering *** Basic Information Table.
Figure 108: Organizational chart of North China Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Figure 109: Analysis of the advantages and disadvantages of the North China Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Exhibit 110: China Electric Power Engineering Consulting Group Northeast Electric Power Design Institute*** Basic Information Table.
Exhibit 111: Analysis of the advantages and disadvantages of Northeast Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Exhibit 112: Basic information table of Northwest Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Exhibit 113: Analysis of the advantages and disadvantages of the Northwest Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Exhibit 114: Basic information table of East China Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Figure 115: Organizational chart of East China Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Exhibit 116: Analysis of the advantages and disadvantages of East China Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Exhibit 117: Basic information table of Southwest Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Figure 118: Organizational chart of Southwest Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Figure 119: Analysis of the advantages and disadvantages of Southwest Electric Power Design Institute of China Electric Power Engineering Consulting Group.
Exhibit 120: China Electric Power Engineering Consulting Group Zhongnan Electric Power Design Institute*** basic information table.