Equivalence number method
This article may be too technical for most readers to understand.(July 2018) |
The equivalence number method is a cost calculation method for co-production in cost and activity accounting.[1] The resulting costs of the input factors are allocated to the individual products according to a weighting key, the so-called equivalence numbers.
Description
[edit]As with the other cost allocation methods, the conservation of the cost sum applies, that is:
The cost of the main product, usually for the product with the highest physical or economical output, receives for example the equivalence number 1. On the basis of selected indicators (average market prices, physical properties, etc.) other equivalence numbers are formed, using suitable ratios between the different co-products. Multiplying the equivalence numbers by the production or sales figures results in the allocation keys for a specific product type. From this the cost of a co-product can be calculated, both for main and by-products.
Application examples
[edit]An airline can determine the cost of the transportation service by dividing air freight and passengers by weight. The average passenger weight of booked seats is to be compared to the weight of the loaded air cargo containers.
- apass = mpass / (mpass + mfreight)
- afreight = mfreight / (mpass + mfreight)
In a refinery, one can assume the input as crude oil and as output gasoline, diesel and heavy fuel oil as well as (flare) losses. The equivalence number method can use the energy content of the products as an allocation key. E is the product of energy density and production quantity.
- agas = Egas / (Egas + Ediesel + EHFO)
- adiesel = Ediesel / (Egas + Ediesel + EHFO)
- aHFO = EHFO / (Egas + Ediesel + EHFO)
In the cogeneration plants, the Carnot method allocates the fuel to the products useful heat and electrical work. The weighting key is the exergy content of the output energies.
- ael= ηel / (ηel + ηc × ηth)
- ath= (ηc x ηth) / (ηel + ηc × ηth)
In the alternative generation method, the key is thermal and weighted electrical efficiency, where the weighting factor is the ratio of thermal to electrical reference efficiencies (γ = ηth, ref/ηel,ref).
- ael= (γ ηel) / (γ ηel + ηth)
- ath= ηth / (γ ηel + ηth)
Criticism
[edit]Criticism of the equivalence number method is justified by the fact that completely arbitrary and random keys can be chosen. For example, in the case of allocating the potable water bill in a house with only one common meter, the water consumption could be divided according to the number of occupants per apartment or the apartment's net dwelling area in m2.
Mathematical background
[edit]From a one-dimensional input I, a two-dimensional output is assumed with O1 = f1(I) * I and O2 = f2(I) * I.
Note: One interpretation for f is a conversion efficiency from the input to the respective output. More than 2 co-products are also conceivable.
The costs k1, k2 are the variable costs of the two outputs which need to be determined. kI represents the known variable costs of the input. Kvar denotes the respective sum of the variable costs. a1 and a2 are the allocation factors for the respective output, i.e. they describe the proportion of the input that is assigned to a co-product.
The weighting keys are f1 and f2:
This results in specific variable costs k1 and k2:
According to the introducing relation of the cost allocation, the following applies:
Further reading
[edit]- Günter Wöhe: Einführung in die allgemeine Betriebswirtschaftslehre (DE: Introduction in general business economics). 18th edition. Vahlen, München 1993, ISBN 3-8006-1728-5.
See also
[edit]- Cross-multiplication (or rule of proportion)
- Cost allocation
References
[edit]- ^ King, Tom (2019). "8.1.2 Co-products". SAP S/4HANA Product Cost Planning – Costing with Quantity Structure. Gleichen: Espresso Tutorials. p. 5-61ff. ISBN 978-3960125358.