1、01ContentsIntroduction 01Chapter I Industry Background and Development Drivers030111Chapter II Key Technologies of Mining MicrogridsChapter III Huawei Smart Microgrid Solution Application CasesCharacteristics of Electricity Demands in the Mining IndustryPolicy and Regulation DriversEconomic and Tech

2、nical DriversChallenges of Mining Microgrid DevelopmentDemocratic Republic of the Congo:First Copper Mining Microgrid ProjectMAK,Mongolia:Worlds Largest Operational Mining MicrogridProgram Manono,Congo-Kinshasa:Lithium Mining Microgrid Project The Red Sea Destination,Saudi Arabia:Worlds Largest PV+E

3、SSMicrogrid Plant 1.2.3.4.1.2.3.4.1.2.3.040607083031323412131414152325Solution OverviewMicrogrid Operation ModesHuawei Smart Microgrid Architecture Innovation and Key Technologies3.1 Hierarchical Control Architecture3.2 Six Key Technologies for Stable Operation3.3 Key Technologies for Economical Ope

4、ration3.4 Mining Microgrid Solution Design Process290401IntroductionThe mining industry faces two challenges in sustainable development:power supply stability and economic efficiency.Traditional gensets,with high costs,unreliable performance,and heavy carbon emissions,struggle to meet the demands of

5、 green and intelligent transformation.Huaweis Smart Microgrid Solution,centered on a grid-forming energy storage system(ESS),effectively integrates multiple energy sources to deliver highly reliable power for mining operations.This approach reduces the levelized cost of electricity(LCOE)by over 50%w

6、hile cutting carbon emissions.Having been validated through multiple large-scale international mining projects,it has established a replicable benchmark for energy transition in the sector.Mining microgrids are evolving from auxiliary power systems into core infrastructure for zero-carbon mining.By