Peak demand: Difference between revisions

From CEOpedia | Management online
m (Infobox update)
m (Text cleaning)
 
(One intermediate revision by the same user not shown)
Line 1: Line 1:
{{infobox4
|list1=
<ul>
<li>[[ABC analysis]]</li>
<li>[[ABC method]]</li>
<li>[[Duopoly]]</li>
<li>[[Controllable costs]]</li>
<li>[[First in first out (FIFO)]]</li>
<li>[[Trade allowance]]</li>
<li>[[Optimal capital structure]]</li>
<li>[[Money laundering]]</li>
<li>[[Engel's law]]</li>
</ul>
}}
'''Peak [[demand]]''' happens on electrical grid and it happens when the '''average power of electricity demand reaches its peak''' in specified period of time (Gyamfi, Krumdieck & Urmee, 2013). Peak demand has specified unit of power, kW, and generally it is presented as '''seasonal, daily or annual'''. It can be observed in moments like when turning all the lights on in a facility or turning on the power in some big electric motor that is responsible for propelling some high intensity [[work]]. [[Company]] responsible for providing electricity has to be able to deliver needed amount of electricity that allows for that peak to happen, but it comes with higher costs of utility (Rogner, 2012).  
'''Peak [[demand]]''' happens on electrical grid and it happens when the '''average power of electricity demand reaches its peak''' in specified period of time (Gyamfi, Krumdieck & Urmee, 2013). Peak demand has specified unit of power, kW, and generally it is presented as '''seasonal, daily or annual'''. It can be observed in moments like when turning all the lights on in a facility or turning on the power in some big electric motor that is responsible for propelling some high intensity [[work]]. [[Company]] responsible for providing electricity has to be able to deliver needed amount of electricity that allows for that peak to happen, but it comes with higher costs of utility (Rogner, 2012).  


== How peak demand is measured ==
==How peak demand is measured==
There is a concrete period of time that is considered in which there is a [[need]] to measure consumed energy by simply adding it up and assigning it directly with '''kW''' units of power. The result of this operation is peak demand value (Oldewurtel et al., 2010).  
There is a concrete period of time that is considered in which there is a [[need]] to measure consumed energy by simply adding it up and assigning it directly with '''kW''' units of power. The result of this operation is peak demand value (Oldewurtel et al., 2010).  


== The effect of a billing method on the behaviour ==
==The effect of a billing method on the behaviour==
Because of the fact that in some regions utilities act according to „ratchet clause” (billing for the highest one-time peak demand in the entire billing cycle), engineers are more likely to minimize their energy bills to conserve energy. The peak demand can even go up from '''30% to 70% of the electricity bill''' (Sioshansi, 2013).  
Because of the fact that in some regions utilities act according to "ratchet clause" (billing for the highest one-time peak demand in the entire billing cycle), engineers are more likely to minimize their energy bills to conserve energy. The peak demand can even go up from '''30% to 70% of the electricity bill''' (Sioshansi, 2013).  


'''Factors that affect peak demand:'''  
'''Factors that affect peak demand:'''  
Line 28: Line 13:
* pricing structures specified by utility providers, regional or national law, or others (Ma et al., 2012).
* pricing structures specified by utility providers, regional or national law, or others (Ma et al., 2012).


== Avoiding peak demand ==
==Avoiding peak demand==
Since peak demand is not profitable for financial costs there are a few ways that engineers can avoid it:  
Since peak demand is not profitable for financial costs there are a few ways that engineers can avoid it:  
* '''Automating and monitoring''' used powers load (Tang et al., 2013).
* '''Automating and monitoring''' used powers load (Tang et al., 2013).
* Another [[method]] of dealing with this problem is to '''distribute power over different parts of the facility'''. It is advised to observe and control power loads and to turn the power - intensive equipment on in steps, not all at once. Although it's not obvious at first, it is possible to spend less [[money]] on electric bill by keeping electronic machinery turned on (Liu, Miller & Ledwich, 2017).
* Another [[method]] of dealing with this problem is to '''distribute power over different parts of the facility'''. It is advised to observe and control power loads and to turn the power - intensive equipment on in steps, not all at once. Although it's not obvious at first, it is possible to spend less [[money]] on electric bill by keeping electronic machinery turned on (Liu, Miller & Ledwich, 2017).


== References ==
{{infobox5|list1={{i5link|a=[[ABC analysis]]}} &mdash; {{i5link|a=[[ABC method]]}} &mdash; {{i5link|a=[[Duopoly]]}} &mdash; {{i5link|a=[[Controllable costs]]}} &mdash; {{i5link|a=[[First in first out (FIFO)]]}} &mdash; {{i5link|a=[[Trade allowance]]}} &mdash; {{i5link|a=[[Optimal capital structure]]}} &mdash; {{i5link|a=[[Money laundering]]}} &mdash; {{i5link|a=[[Engel's law]]}} }}
 
==References==
* Gyamfi, S., Krumdieck, S., & Urmee, T. (2013). [https://researchrepository.murdoch.edu.au/id/eprint/15537/1/residential_peak_electricity_demand_response.pdf ''Residential peak electricity demand response—Highlights of some behavioural issues''], Renewable and Sustainable Energy Reviews, 25, 71-77.
* Gyamfi, S., Krumdieck, S., & Urmee, T. (2013). [https://researchrepository.murdoch.edu.au/id/eprint/15537/1/residential_peak_electricity_demand_response.pdf ''Residential peak electricity demand response—Highlights of some behavioural issues''], Renewable and Sustainable Energy Reviews, 25, 71-77.
* Harvey, D. (2010). [https://faculty.geog.utoronto.ca/Harvey/Harvey/books/Energy%20New%20Reality/ENR%20Volume%201/ENR%20Volume%201%20Chapter%2011%20(Policies).pdf ''Energy and the new reality 1: Energy efficiency and the demand for energy services''], Routledge.  
* Harvey, D. (2010). [https://faculty.geog.utoronto.ca/Harvey/Harvey/books/Energy%20New%20Reality/ENR%20Volume%201/ENR%20Volume%201%20Chapter%2011%20(Policies).pdf ''Energy and the new reality 1: Energy efficiency and the demand for energy services''], Routledge.  

Latest revision as of 02:01, 18 November 2023

Peak demand happens on electrical grid and it happens when the average power of electricity demand reaches its peak in specified period of time (Gyamfi, Krumdieck & Urmee, 2013). Peak demand has specified unit of power, kW, and generally it is presented as seasonal, daily or annual. It can be observed in moments like when turning all the lights on in a facility or turning on the power in some big electric motor that is responsible for propelling some high intensity work. Company responsible for providing electricity has to be able to deliver needed amount of electricity that allows for that peak to happen, but it comes with higher costs of utility (Rogner, 2012).

How peak demand is measured

There is a concrete period of time that is considered in which there is a need to measure consumed energy by simply adding it up and assigning it directly with kW units of power. The result of this operation is peak demand value (Oldewurtel et al., 2010).

The effect of a billing method on the behaviour

Because of the fact that in some regions utilities act according to "ratchet clause" (billing for the highest one-time peak demand in the entire billing cycle), engineers are more likely to minimize their energy bills to conserve energy. The peak demand can even go up from 30% to 70% of the electricity bill (Sioshansi, 2013).

Factors that affect peak demand:

  • Utility provider,
  • region of living or working,
  • applicable tariffs,
  • pricing structures specified by utility providers, regional or national law, or others (Ma et al., 2012).

Avoiding peak demand

Since peak demand is not profitable for financial costs there are a few ways that engineers can avoid it:

  • Automating and monitoring used powers load (Tang et al., 2013).
  • Another method of dealing with this problem is to distribute power over different parts of the facility. It is advised to observe and control power loads and to turn the power - intensive equipment on in steps, not all at once. Although it's not obvious at first, it is possible to spend less money on electric bill by keeping electronic machinery turned on (Liu, Miller & Ledwich, 2017).


Peak demandrecommended articles
ABC analysisABC methodDuopolyControllable costsFirst in first out (FIFO)Trade allowanceOptimal capital structureMoney launderingEngel's law

References

Author: Katarzyna Atłas