Climate change policies in Helsinki: Difference between revisions

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Building owner|EnergySavingPolicy|BAU|renovationRate||Multiply|1 /a|1|Assumes BAU renovation rate = 1%/a for buildings >30 a old
Building owner|EnergySavingPolicy|BAU|renovationRate||Multiply|1 /a|1|Assumes BAU renovation rate = 1%/a for buildings >30 a old
Building owner|EnergySavingPolicy|Energy saving moderate|renovationRate||Multiply|1 /a|2|
Building owner|EnergySavingPolicy|Energy saving moderate|renovationRate||Multiply|1 /a|2|
Building owner|EnergySavingPolicy|Energy saving total|renovationRate||Multiply|1 /a|5|5%/a is 100 % in 20 a
Building owner|EnergySavingPolicy|Energy saving total|renovationRate||Multiply|1 /a|3|3%/a is 100 % in 20 a
</t2b>
</t2b>
}}
}}
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obstime <- data.frame(Startyear = c((198:206) * 10)) # Observation years must be defined for an assessment.
obstime <- data.frame(Startyear = c((198:206) * 10)) # Observation years must be defined for an assessment.


BS <- 24
BS <- 24 # base_size = font size in graphs
heating_before <- FALSE # Should heatingShares be calculated before renovate and timepoints (or after)?  
heating_before <- FALSE # Should heatingShares be calculated before renovate and timepoints (or after)?  
efficiency_before <- TRUE # Should efficiencyShares be calculated before renovate and timepoints (or after)?
efficiency_before <- TRUE # Should efficiencyShares be calculated before renovate and timepoints (or after)?
dummy <- 1
figstofile <- FALSE
figstofile <- FALSE


Line 179: Line 178:


objects.latest('Op_en2261', code_name = 'initiate') # [[Health impact assessment]] dose, RR, totcases.  
objects.latest('Op_en2261', code_name = 'initiate') # [[Health impact assessment]] dose, RR, totcases.  
objects.latest('Op_en5917', code_name = 'initiate') # [[Disease risk]] disincidence
objects.latest('Op_en5461', code_name = 'DALYs') # [[Climate change policies and health in Kuopio]] DALYs, DW, L
objects.latest('Op_en5461', code_name = 'DALYs') # [[Climate change policies and health in Kuopio]] DALYs, DW, L
frexposed <- 1 # fraction of population that is exposed
bgexposure <- 0 # Background exposure to an agent (a level below which you cannot get in practice)
BW <- 70 # Body weight (is needed for RR calculations although it is irrelevant for PM2.5)


population <- 623732 # Contains only the Helsinki city, i.e. assumes no exposure outside city. (Wikipedia)
population <- 623732 # Contains only the Helsinki city, i.e. assumes no exposure outside city. (Wikipedia)
# Note: the population size does NOT affect the health impact as it cancels out. However, it DOES affect  
# Note: the population size does NOT affect the health impact if the exposure-response function in linear.
# exposure estimates.
# However, it DOES affect exposure estimates.


#########################i--------------------------------------------------
#########################i--------------------------------------------------
Line 211: Line 205:


buildings <- EvalOutput(buildings)
buildings <- EvalOutput(buildings)
#buildings@output$RenovationPolicy <- factor(
# buildings@output$RenovationPolicy,
# levels = c("BAU", "Active renovation", "Total renovation"),
# ordered = TRUE
#)


buildings@output$EnergySavingPolicy <- factor(
buildings@output$EnergySavingPolicy <- factor(
Line 228: Line 216:
exposure@output <- exposure@output[exposure@output$Area == "Average" , ] # Helsinki is an average area,
exposure@output <- exposure@output[exposure@output$Area == "Average" , ] # Helsinki is an average area,
# rather than rural or urban.
# rather than rural or urban.
cat("Don't believe the health estimates. There is a bug in the model.\n")


totcases <- EvalOutput(totcases)
totcases <- EvalOutput(totcases)
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totcases <- truncateIndex(totcases, cols = "Heating", bins = 5)
totcases <- truncateIndex(totcases, cols = "Heating", bins = 5)
#levels(totcases@output$Heating)[levels(totcases@output$Heating) == "Long-distance heating"] <- "District heating"


DALYs <- EvalOutput(DALYs)
DALYs <- EvalOutput(DALYs)
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if(figstofile) ggsave("Figure8.eps", width = 11, height = 7)
if(figstofile) ggsave("Figure8.eps", width = 11, height = 7)


#cat("Total DALYs/a by different combinations of policy options.\n")
cat("Total DALYs/a by different combinations of policy options.\n")


temp <- DALYs
temp <- DALYs

Revision as of 09:51, 14 June 2015



This assessment was used for training in Decision analysis and risk management 2015 course. To see student contributions, see a previous version.

Scope

Question

What is the energy need of buildings in Helsinki and the related greenhouse gas emissions and health impacts? How can these be affected by renovation of buildings and fuel changes in district heating?

Intended use and users

A problem in the climate policy practices in the City of Helsinki is that there is not enough information about different costs and impacts of different climate change mitigation measures, especially in the long term. This is slowing down the decision-making process. The results of this course will be used at the City of Helsinki Environment Centre to assess the outcomes of different ways to reduce GHG emissions. The results will help in identifying the most favourable ways to cut GHG emissions.

Participants

Boundaries

  • Time: 2010-2060
  • Spatial: the city of Helainki

Decisions and scenarios

  • Renovate 1 or 2 % of buildings per year.
  • Change the district heating fuel from 100 % fossil to 50 % fossil, 50 % wood-based fuel.

See also decisions in Climate change policies and health in Kuopio.



Timing

The data will be collected before the end of the Decision analysis and risk management 2015 course (12th May, 2015). The model runs will be finalised soon after that. Results will be available before September 2015.

Answer

Results

Conclusions

Rationale

Causal diagram of climate change policies in Helsinki. This assessment only relates to the building stock part of the diagram.

Stakeholders

  • City of Helsinki

Dependencies

Data files

Discussions

These are some resolutions of discussions within the assessment.

  • City level climate change mitigation is not useless although international treaties are important for success.D↷
  • Climate change adaptation is not more important than mitigation on city level.R↻
  • Citizens may have a key role in implementing city climate policies.D↷
  • Food issues are underrepresented in climate discussions although food is a major emission source.R↻
  • The role of district heating by nuclear energy in Helsinki is unclear.D↷
  • There may be large uncertainty in CO2 emission factors of biofuels.D↷

Analyses

Indices

The data will be classified according to these indices:

  • Building: Residential, Public, Industrial, Other. For separating different use purposes of buildings.
  • Constructed: Years of construction of the buildings in the format 1990-1999, 2000-2009, 2010-2013.
  • Heating: District, Electricity, Geothermal, Oil, Wood,

The results of each ovariable will be measuring these things:

  • buildings: total floor area in m2.

Calculations

+ Show code


⇤--#: . In the results the graph "Energy used in heating in Helsinki" shows a twice or thrice bigger energy use for Oil and Other than the table "Total energy consumption in Helsinki in 2013 (GWh)" on Helsinki energy consumption would suggest. --Heta (talk) 08:18, 11 June 2015 (UTC) (type: truth; paradigms: science: attack)

⇤--#: . Effective floor area of buildings by building type -table on page Building stock in Helsinki has the current building stock at 7 million m2 more than the graphs in the result, and the future estimates are even more higher than the code result estimates --Heta (talk) 10:49, 11 June 2015 (UTC) (type: truth; paradigms: science: attack)

See also

Other related assessments
Helsinki energy decision 2015
In English
Assessment Main page | Helsinki energy decision options 2015
Helsinki data Building stock in Helsinki | Helsinki energy production | Helsinki energy consumption | Energy use of buildings | Emission factors for burning processes | Prices of fuels in heat production | External cost
Models Building model | Energy balance | Health impact assessment | Economic impacts
Related assessments Climate change policies in Helsinki | Climate change policies and health in Kuopio | Climate change policies in Basel
In Finnish
Yhteenveto Helsingin energiapäätös 2015 | Helsingin energiapäätöksen vaihtoehdot 2015 | Helsingin energiapäätökseen liittyviä arvoja | Helsingin energiapäätös 2015.pptx

Other variables and pages to look at

Possibly useful variables
Almost empty pages that should be removed

Keywords

Helsinki, energy, building stock, heating, renovation.

References


Related files