# Learn about energy distribution efficiency with our Load factor Assignment Help

One of the chief aims of a certain electricity board is to make energy more efficient. This involves calculating factors which are directly involved in loads. A typical energy forecast helps in estimating, to the nearest degree, amount of load (L) in peak hours and that in regular hours. Load factor (LF) is essentially the ratio of average load by peak load. Higher values of LF indicate positive infrastructure with a maximum value of 1.  Learn more about LF from load factor Assignment help.

## Why is Load factoring important?

Load factor determines net efficiency of a system. Since energy is expressed in terms of kilowatt-hours, LF is just a ratio so there are no units attached. A high LF is desirable than one with a lower value.

• If you are an electrical engineering student, you may want to know more about this from load factor assignment help. Carefully notice an electrical bill, terms like actual KWh, Peak KWh and span of time are important and crucial in calculating peak and average load.

Load factor =  Actual KWH/Total KWH

• A graphical representation of actual and peak loading shows that actual KWh spent by a household generally fluctuates with respect to time, seasons or other factors. Since actual KWh is the limit, visual differences between these two are the current that is wasted.

### Other relevant terms

In engineering, it is a graphical representation of L in a particular period of time. Trust experts from Courseworktutors as they give their best to make you understand the general concepts of L. Load curve is fluctuating with higher crests during peak hours and lower crests in inactive hours.

It shows the duration of the peak loads in different times of the day. For example, during the day, rigor office work may involve more electricity consumption than during leisure hours.

You get detailed help on efficient control systems and load efficiencies from our load factor homework help. You can easily calculate load duration curves daily, monthly or annually by joining the maximum peak points with ease.

### Calculating LF

Time is a crucial factor and it depends your duration of L in hours.

• The daily LF is obtained by dividing the total load by the peak load multiplied by 24. In the same way, the annual LF takes into account the annual peak loads and annual total loads and respective hours.

In short, when load demand is high, the peak load almost nears the actual load due to more usage (for example during summer). However, it lowers in winter. Thus shifting winter load to more of summer load is an efficient way to strike a balance.

Hence, as an engineering student, if you need more help on peak loading, refer to our Load factor assignment help. You will get a vivid idea about how load factor helps measuring the efficient load provision hours and the nature and strength of the delivery system.