No system, Peak demand as defined by the Utility Co`s is usually 7am-2pm. During those times everyone is at work or school in larger buildings with larger systems creating this period of peak demand, essentially staying comfortable on someone else`s dime, and the programmable thermostat in the home would be in energy setback or unoccuppied mode. Or in some areas the Utility Co does this for the Homeowner via their own Energy Setback Systems or rolling Brown Outs if that is the answer your Teacher is looking for.
secondary cold water system
C
You can increase load on a bus power system by increasing the bus active power demand ans reactive power demand.
If a central heating system cannot be installed as per the client's original specification what should a domestic gas engineer do?
To supply the reactive power demand of load and to regulate of output volage at the grid
Electrical load forecasting. "A good electrical load forecast has a direct and significant impact on costly generating unit startups and shutdowns, energy purchases, managing system demand as well as scheduling system upgrades based on predicted load growth."
Non-Coincident Peak (NCP) is the individual or actual peak demands of each load in an electrical system oftentimes occurring at different hours of the day. It does not necessarily fall during system peak. (This is what i understood about NCP...I gladly welcome corrections)
In area where water supply is poor during periods of peak demand what type of system would usually be specified for the domestic dwelling?
secondary cold water system
according to number system in Indian numbervsystem periods are 4 in international number system periods are 3
A New System of Domestic Cookery was first published in 1806 by Maria Rundell.
more of the product was needed .The domestic system was not efficient enough.
and
Supply and Demand
The domestic system is the home based manufacturing system.
From wikipedia: Demand response is generally used to refer to mechanisms used to encourage consumers to reduce demand, thereby reducing the peak demand for electricity. Since electrical systems are generally sized to correspond to peak demand (plus margin for error and unforeseen events), lowering peak demand reduces overall plant and capital cost requirements. Depending on the configuration of generation capacity, however, demand response may also be used to increase demand (load) at times of high production and low demand. Some systems may thereby encourage energy storage to arbitrage between periods of low and high demand (or low and high prices). As the proportion of intermittent power sources such as wind power in a system grows, demand response may become increasingly important to effective management of the electric grid.
The domestic system
domestic system
inside coil