Difference between revisions of "Outdoor air temperature in Finland"
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(updated to match Helsinki energy decision 2015 data needs) |
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== Answer == | == Answer == | ||
| + | |||
| + | <rcode graphics=1 embed=1> | ||
| + | library(OpasnetUtils) | ||
| + | library(ggplot2) | ||
| + | objects.latest("Op_en2959", code_name = "temperatures") | ||
| + | |||
| + | ggplot(subset(temperdays@data, Time %in% c("2013", "2030", "2050")), aes(x = Temperature, y = Result, color = Time, group = Time))+geom_line() | ||
| + | |||
| + | </rcode> | ||
== Rationale == | == Rationale == | ||
| Line 17: | Line 26: | ||
=== Calculations === | === Calculations === | ||
| − | <rcode embed= | + | <rcode name="temperatures" label="Initiate temperatures (for developers only)" embed=1> |
## This is code is Op_en2959/temperatures [[Outdoor air temperature in Finland]] | ## This is code is Op_en2959/temperatures [[Outdoor air temperature in Finland]] | ||
library(OpasnetUtils) | library(OpasnetUtils) | ||
ta <- opbase.data("Op_en2959", subset = "Vantaa") # [[Outdoor air temperature in Finland]] | ta <- opbase.data("Op_en2959", subset = "Vantaa") # [[Outdoor air temperature in Finland]] | ||
| − | + | levels(ta$Year)[as.numeric(as.character(levels(ta$Year))) < 2015] <- "2012" | |
| + | ta$Date <- as.POSIXct(paste(ta$Year, ta$Month, ta$Day, sep = "-")) | ||
| − | + | days <- aggregate(ta[c( | |
| − | + | "Temperature" # We only need temperature, but it is easy to take any other variable as well. | |
| + | # "Relative_humidity", | ||
| + | # "Wind_direction", | ||
| + | # "Wind_speed", | ||
| + | # "Direct_normal_solar_radiation", | ||
| + | # "Diffuse_horisontal_radiation", | ||
| + | # "Result" # Global_horizontal_radiation | ||
| + | )], ta[c("Date", "Year")], FUN = mean) | ||
| + | colnames(days)[colnames(days) == "Temperature"] <- "Result" | ||
| + | days$Temperature <- cut(days$Result, breaks = seq(-30, 33, 3)) | ||
| + | temperatures <- Ovariable("temperatures", data = aggregate(days["Result"], days[c("Temperature", "Year")], FUN = mean)) | ||
| + | temperdays <- Ovariable("temperdays", data = aggregate(days["Result"], days[c("Temperature", "Year")], FUN = length)) | ||
| − | + | years = data.frame(Time = 1985:2070, Year = c(rep("2012", 36), rep("2030", 20), rep("2050", 30))) | |
| − | |||
| − | |||
| − | |||
| − | |||
| − | + | temperatures@data <- merge(temperatures@data, years) | |
| − | + | temperatures@data$Year <- NULL | |
| − | + | temperdays@data <- merge(temperdays@data, years) | |
| − | temperdays <- | + | temperdays@data$Year <- NULL |
objects.store(temperatures, temperdays) | objects.store(temperatures, temperdays) | ||
| − | cat("Objects | + | cat("Objects temperatures, temperdays stored.\n") |
#ggplot(hours, aes(x = Time, y = Result))+geom_line() + geom_point(data = days, aes(x = Date, y = Result, colour = "Daily mean", size = 2)) | #ggplot(hours, aes(x = Time, y = Result))+geom_line() + geom_point(data = days, aes(x = Date, y = Result, colour = "Daily mean", size = 2)) | ||
| Line 50: | Line 67: | ||
*[[CLAIH assessment]] | *[[CLAIH assessment]] | ||
| − | {{Helsinki energy decision}} | + | {{Helsinki energy decision 2015}} |
==References== | ==References== | ||
| Line 56: | Line 73: | ||
<references/> | <references/> | ||
| − | == Related files == | + | == Related files ==<!-- __OBI_TS:1444568741 --> |
Latest revision as of 08:20, 12 October 2015
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Question
What are the outdoor air temperatures in Finland previously, now and in the future in different climate areas?
Answer
Rationale
Data from Statistics Finland:
- Current temperature, wind, and solar radiation
- Future temperature, wind, and solar radiation
- The data contains the following parameters: Timestep Year Month Day Time Temperature(°C) Relative_humidity(%) Wind_direction(degrees) Wind_speed(m/s) Direct_normal_solar_radiation(W/m2) Diffuse_horisontal_radiation(W/m2) Global_horisontal_radiation(W/m2)
Calculations
See also
References
