noun a planned reduction of electrical power in a part of a power distribution system
Loadshedding schedules may be incorporated into urban planning to minimize disruptions and optimize energy usage in densely populated areas.
Loadshedding policies and regulations are put in place to manage energy consumption and prevent widespread power outages.
Loadshedding plans are part of emergency preparedness measures to handle power shortages during crises or natural disasters.
Loadshedding is a controlled shutdown of electricity supply to prevent a total blackout, often implemented during times of high demand or system overload.
Loadshedding is a strategy used to balance electricity supply and demand, ensuring the stability of the power grid.
Loadshedding can disrupt a writer's workflow by causing power outages during crucial writing times.
Loadshedding can affect a psychologist's ability to conduct therapy sessions if the power goes out during a session.
Loadshedding can interrupt a software developer's work by causing loss of unsaved code or progress on a project.
Loadshedding can hinder a graphic designer's ability to meet deadlines if power outages occur during the design process.
Loadshedding can delay architectural projects if power outages prevent the use of necessary design software or tools.
Loadshedding can impact a medical doctor's ability to provide care if critical medical equipment relies on electricity.
Loadshedding can disrupt a teacher's lesson plans if technology or audiovisual aids are rendered unusable during a power outage.
Loadshedding can impede an engineer's ability to work on projects that require continuous access to computer software or simulations.
Loadshedding can create challenges for accountants who rely on computer software for financial calculations and record-keeping.
Loadshedding can affect a journalist's ability to meet deadlines if power outages occur during the writing or editing process.