To optimize peaking operation when high proportion new energy accesses to power grid,evaluation indexes are proposed which simultaneously consider wind-solar complementation and source-load coupling.A typical wind-sol...To optimize peaking operation when high proportion new energy accesses to power grid,evaluation indexes are proposed which simultaneously consider wind-solar complementation and source-load coupling.A typical wind-solar power output scene model based on peaking demand is established which has anti-peaking characteristic.This model uses balancing scenes and key scenes with probability distribution based on improved Latin hypercube sampling(LHS)algorithm and scene reduction technology to illustrate the influence of wind-solar on peaking demand.Based on this,a peak shaving operation optimization model of high proportion new energy power generation is established.The various operating indexes after optimization in multi-scene peaking are calculated,and the ability of power grid peaking operation is compared whth that considering wind-solar complementation and source-load coupling.Finally,a case of high proportion new energy verifies the feasibility and validity of the proposed operation strategy.展开更多
Knowledge of the electromagnetic radiation characteristics of 5G base stations under diferent circumstances is useful for risk prevention,assessment,and management.This paper selects several typical scenes(Open spaces...Knowledge of the electromagnetic radiation characteristics of 5G base stations under diferent circumstances is useful for risk prevention,assessment,and management.This paper selects several typical scenes(Open spaces,building concentration areas,user and building intensive areas)for electromagnetic radiation monitoring,and analyzes the relationship between ambient radiated power density and base station background.The results show that the factors that have signifcant impacts on the environmental radiation power density of 5G base stations including transmission distance,base station distribution,user density,building refection superposition and so on.The radiation energy decays rapidly with distance.When the density of the building distribution is too large,the superposition efect caused by the refected wave is concentrated at the distance of 50-70 meters.When the user density decreases(the superposition efect of refected waves decreases),the 5G monitoring value follows the direct wave attenuation law and decreases rapidly with the increase of distance.Points with higher measured radiation in the simple access condition also had higher measured radiation in the high-speed download condition.With the popularization of 5G mobile phones and the increase of user density,the resource utilization of a single user will decline to the normal operation state,and the radiation environmental impact will be further reduced.展开更多
基金Youth Science and Technology Fund Project of Gansu Province(No.18JR3RA011)Major Projects in Gansu Province(No.17ZD2GA010)+1 种基金Science and Technology Projects Funding of State Grid Corporation(No.522727160001)Science and Technology Projects of State Grid Gansu Electric Power Company(No.52272716000K)
文摘To optimize peaking operation when high proportion new energy accesses to power grid,evaluation indexes are proposed which simultaneously consider wind-solar complementation and source-load coupling.A typical wind-solar power output scene model based on peaking demand is established which has anti-peaking characteristic.This model uses balancing scenes and key scenes with probability distribution based on improved Latin hypercube sampling(LHS)algorithm and scene reduction technology to illustrate the influence of wind-solar on peaking demand.Based on this,a peak shaving operation optimization model of high proportion new energy power generation is established.The various operating indexes after optimization in multi-scene peaking are calculated,and the ability of power grid peaking operation is compared whth that considering wind-solar complementation and source-load coupling.Finally,a case of high proportion new energy verifies the feasibility and validity of the proposed operation strategy.
基金supported by the Ecological Environment Research Project of Jiangsu Province:5G Base station radiation environment monitoring technology and environmental impact research(No.2020014).
文摘Knowledge of the electromagnetic radiation characteristics of 5G base stations under diferent circumstances is useful for risk prevention,assessment,and management.This paper selects several typical scenes(Open spaces,building concentration areas,user and building intensive areas)for electromagnetic radiation monitoring,and analyzes the relationship between ambient radiated power density and base station background.The results show that the factors that have signifcant impacts on the environmental radiation power density of 5G base stations including transmission distance,base station distribution,user density,building refection superposition and so on.The radiation energy decays rapidly with distance.When the density of the building distribution is too large,the superposition efect caused by the refected wave is concentrated at the distance of 50-70 meters.When the user density decreases(the superposition efect of refected waves decreases),the 5G monitoring value follows the direct wave attenuation law and decreases rapidly with the increase of distance.Points with higher measured radiation in the simple access condition also had higher measured radiation in the high-speed download condition.With the popularization of 5G mobile phones and the increase of user density,the resource utilization of a single user will decline to the normal operation state,and the radiation environmental impact will be further reduced.
