It should also be noted that this variable gives only the first stranding time of the oil, and a large part of the oil slick may actually still be floating around in the sea, arriving at the shore later. Variables of this type are dependent on one or more other variables, called parents. The relations between a conditional variable (child) MDV3100 cost and its parents are established through a conditional probability table (CPT). A CPT for the model presented here is determined in two fold. First, mathematical functions are adopted when applicable to specify the relations between variables. Second, simulations are performed and the results are incorporated to the model. In
this section, all the conditional variables are listed and their origin is explained. The variable Wave height is conditional on the variable Season, and is divided into four different intervals, as presented in Table 5. The probability distributions, which
are adopted for this variable, are based on field measurements performed in the Gulf of Finland, see Kahma and Pettersson (1993). As the Gulf of Finland is quite narrow, the highest measured significant wave height is 5.2 m, which has been recorded only twice in the history until 2013, see Marita Mustonen (2013). However, a wave height of approximately two meters already makes it almost impossible for the current Finnish oil-combating vessels to carry out oil-recovery operations. This variable reflects the fraction of an oil spill that evaporates into the air, and
is expressed as a percentage of the initial spill size. The rate at ABT-199 mw which the oil evaporates depends, among other factors on the oil type in question, the weather circumstances, such as wind and wave height, as well as the prevailing temperature. Evaporation is also affected by the initial spreading rate of the oil, since the larger the surface area is, the faster light components will evaporate – see for example Yamada (2009). However, this particular dependency is not taken into consideration here. In order to calculate the CPT we use the following equation, see Juntunen (2005): equation(1) Evaporation=f1(oil PJ34 HCl type)·f2(wave height)·f3(season)Evaporation=f1(oil type)·f2(wave height)·f3(season)where Evaporation is the fraction of an initial spill that evaporated (%) and the following factors are used to determine this parameter: f1 (light oil) = 0.8; f1 (medium oil) = 0,3; f1 (heavy oil) = 0,15; This variable quantifies the amount of oil that is still left in the water after considering the possible effect of the evaporation. The variable exists in 17 states ranging from 0 (all of the oil has evaporated) to 50,000 cubic meters. This node quantifies the time that oil-combating fleet may gain by utilizing the offshore booms, which prevent the oil spill from spreading quickly. The probabilities for this variable are elicited from the experts, and are presented in Table 6.