Energy balance in Suzhou: Difference between revisions

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  [[Category:Energy]]
  [[Category:Energy]]
[[Category:Energy balance]]
[[Category:Energy balance]]
[[Category:Code under inspection]]
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== Answer ==
== Answer ==


==Rationale==
* {{#l:Energy balance in Suzhou.pdf}} [http://en.opasnet.org/en-opwiki/index.php?title=Special:RTools&id=DSTWLm5bL1MkwLOc Model run 17.5.2015] (based on model from June 2014)
 
There are several [[energy transformations]] that each describe a specific process of energy production or use. Per unit activity, there is a constant amount of different inputs and outputs into and from this process, respectively. These unit processes are used for Suzhou in such a way that one critical input or output from each relevant energy transformation is listed here; all other inputs and outputs logically follow from the nature of the transformation process.


===Data===
<rcode name="answer" graphics=1>


<t2b index="Equation,Col,Observation" locations="Result,Description" unit="-">
### This code was run from page [[Energy balance in Suzhou#Answer]]
Balance Thermal Power Plants|TP raw coal|-1|In energy balance, inputs and outputs cancle out
Balance Thermal Power Plants|TP natural gas|-1|
Balance Thermal Power Plants|TP oil products|-1|
Balance Thermal Power Plants|TP coal products|-1|
Balance Thermal Power Plants|TP other energy|-1|
Balance Thermal Power Plants|TP heat|-1|
Balance Thermal Power Plants|TP electricity|1|
Balance Thermal Power Plants|TP loss|1|
Fraction TP raw coal|TP natural Gas|-1|Sum of other fuels is used as comparison for raw coal
Fraction TP raw coal|TP oil products|-1|
Fraction TP raw coal|TP coal products|-1|
Fraction TP raw coal|TP other energy|-1|
Fraction TP raw coal|TP heat|-1|
Fraction TP raw coal|TP raw coal|0.12158311|(670,9+21,4+1145,5+198,0+54,7)/17194,0 Others divided by raw coal
Fraction TP natural gas|TP raw coal|-1|Sum of other fuels is used as comparison for natural gas
Fraction TP natural gas|TP oil products|-1|
Fraction TP natural gas|TP coal products|-1|
Fraction TP natural gas|TP other energy|-1|
Fraction TP natural gas|TP heat|-1|
Fraction TP natural gas|TP natural Gas|27.74422418|(17194,0+21,4+1145,5+198,0+54,7)/670,9 Others divided by natural gas
Fraction TP oil products|TP raw coal|-1|Sum of other fuels is used as comparison for oil products
Fraction TP oil products|TP natural gas|-1|
Fraction TP oil products|TP coal products|-1|
Fraction TP oil products|TP other energy|-1|
Fraction TP oil products|TP heat|-1|
Fraction TP oil products|TP oil products|900.1448598|(17194,0+670,9+1145,5+198,0+54,7)/21,4 Others divided by oil products
Fraction TP coal products|TP raw coal|-1|Sum of other fuels is used as comparison for coal products
Fraction TP coal products|TP natural gas|-1|
Fraction TP coal products|TP oil products|-1|
Fraction TP coal products|TP other energy|-1|
Fraction TP coal products|TP heat|-1|
Fraction TP coal products|TP coal products|15.83500655|(17194,0+670,9+21,4+198,0+54,7)/1145,5 Others divided by coal products
Fraction TP other energy|TP raw coal|-1|Sum of other fuels is used as comparison for other energy
Fraction TP other energy|TP natural gas|-1|
Fraction TP other energy|TP oil products|-1|
Fraction TP other energy|TP coal products|-1|
Fraction TP other energy|TP heat|-1|
Fraction TP other energy|TP other energy|96.39646465|(17194,0+670,9+21,4+1145,5+54,7)/198,0 Others divided by other energy
Fraction TP loss|TP electricity|-1|Amount of electricity is used as comparison for loss
Fraction TP loss|TP loss|0.630948656|7460,4/11824,1 electricity per loss
Balance Heating Supply|H raw coal|-1|In energy balance, inputs and outputs cancle out
Balance Heating Supply|H natural gas|-1|
Balance Heating Supply|H oil products|-1|
Balance Heating Supply|H coal products|-1|
Balance Heating Supply|H other energy|-1|
Balance Heating Supply|H heat|1|
Balance Heating Supply|H loss|1|
Fraction H raw coal|H natural gas|-1|Sum of other fuels is used as comparison for raw coal
Fraction H raw coal|H oil products|-1|
Fraction H raw coal|H coal products|-1|
Fraction H raw coal|H other energy|-1|
Fraction H raw coal|H raw coal|0.158111641|(88,0+38,6+360,3+27,2)/3251,5 Others divided by raw coal
Fraction H natural gas|H raw coal|-1|Sum of other fuels is used as comparison for natural gas
Fraction H natural gas|H oil products|-1|
Fraction H natural gas|H coal products|-1|
Fraction H natural gas|H other energy|-1|
Fraction H natural gas|H natural gas|41.79090909|(3251,5+38,6+360,3+27,2)/88,0 Others divided by natural gas
Fraction H oil products|H raw coal|-1|Sum of other fuels is used as comparison for oil products
Fraction H oil products |H natural gas|-1|
Fraction H oil products|H coal products|-1|
Fraction H oil products|H other energy|-1|
Fraction H oil products|H oil products|96.55440415|(3251,5+88,0+360,3+27,2)/38,6 Others divided by oil products
Fraction H coal products|H raw coal|-1|Sum of other fuels is used as comparison for coal products
Fraction H coal products|H natural gas|-1|
Fraction H coal products|H oil products|-1|
Fraction H coal products|H other energy|-1|
Fraction H coal products|H coal products|9.451290591|(3251,5+88,0+38,6+27,2)/360,3 Others divided by coal products
Fraction H loss|H heat|-1|Amount of heat is used as comparison for loss
Fraction H loss|H loss|4.451715651|3074,8/690,7 heat per loss
Balance Coal Processing|CP raw coal|-1|In energy balance, inputs and outputs cancle out
Balance Coal Processing|CP natural gas|-1|
Balance Coal Processing|CP oil products|-1|
Balance Coal Processing|CP coal products|1|
Balance Coal Processing|CP loss|1|
Fraction CP raw coal|CP natural gas|-1|Sum of other fuels is used as comparison for raw coal
Fraction CP raw coal|CP oil products|-1|
Fraction CP raw coal|CP raw coal|0.004725972|(0,007+0,0172)/5,12064 Others divided by raw coal
Fraction CP natural gas|CP oil products|-1|Amount of oil products is used as comparison for natural gas
Fraction CP natural gas|CP natural gas|24.57142857|0,01720/0,0007 oil products divided by natural gas
Fraction CP loss|CP coal products|-1|Amount of coal products is used as comparison for loss
Fraction CP loss|CP loss|6.341763109|4,4386/0,6999 coal products per loss
Transmission loss heat|Loss heat|1|Known loss divided by production
Transmission loss heat|H heat|0.029823078|91,7/3074,8
Transmission loss oil products|Loss oil products|1|Known loss divided by oil products used in TP
Transmission loss oil products|TP oil products|0.953271028|20,4/21,4
Transmission loss electricity|Loss electricity|1|Known loss divided by production
Transmission loss electricity|TP electricity|0.085276929|636,2/7460,4
Transmission loss natural gas|Loss natural gas|1|Known loss divided by natural gas used in H
Transmission loss natural gas|H natural gas|0.3625|31,9/88,0
Electricity use balance|Bought electricity|-1|In energy balance, inputs and outputs cancle out
Electricity use balance|TP electricity|-1|
Electricity use balance|Loss electricity|1|
Electricity use balance|Cons Agri electricity|1|
Electricity use balance|Cons Ind electricity|1|
Electricity use balance|Cons Transportation electricity|1|
Electricity use balance|Cons Commerce electricity|1|
Electricity use balance|Cons Households electricity|1|
Heat use balance|H heat|-1|In energy balance, inputs and outputs cancle out
Heat use balance|Loss heat|1|
Heat use balance|Cons Ind heat|1|
Heat use balance|Cons Commerce heat|1|
Consumed electricity agriculture|Cons Agri electricity|1|This must be given
Consumed electricity industry|Cons Ind electricity|1|This must be given
Consumed electricity transportation|Cons Transportation electricity|1|This must be given
Consumed electricity commerce|Cons Commerce electricity|1|This must be given
Consumed electricity households|Cons Households electricity|1|This must be given
Consumed heat industry|Cons Ind heat|1|This must be given
Consumed heat commerce|Cons Commerce heat|1|This must be given
</t2b>


A data table on an Opasnet page is used to enter the matrix data. This is rather user friendly. As a side effect, the table does not look like a matrix so it might be confusing in the beginning. The matrix is created by using the "Equation" as information about the row of the matrix and "Col" as information about the column of the matrix. "Result" is the actual value, and Description is anything useful for a reader (it is not used in calculations).
=== Dependencies ===
=== Formula ===
Default run key:
<rcode variables="
name:Cons_Agri_electricity|description:Consumption of electricity by agriculture|default:25.8468532|
name:Cons_Ind_electricity|description:Consumption of electricity by industry|default:7032.044935|
name:Cons_Transportation_electricity|description:Consumption of electricity by transportation|default:49.8664292|
name:Cons_Commerce_electricity|description:Consumption of electricity by commerce|default:684.7050273|
name:Cons_Home_electricity|description:Consumption of electricity by households|default:625.3804599|
name:Cons_Ind_heat|description:Consumption of district heat by industry|default:2981.313692|
name:Cons_Commerce_heat|description:Consumption of district heat by commerce|default:1.732034769
">
library(OpasnetUtils)
library(OpasnetUtils)
library(xtable)
library(ggplot2)


Matrix_page <- "Op_en5816" # This is the page with the matrix content.
N <- 10 # Number of iterations


# The dependencies must be updated.
objects.latest("Op_en5141", code_name = "initiate")
dependencies <- data.frame(Name = c(
"Matrix_page",
"Frac_CHP_renew",
"Ind_process_heat",
"Cons_Home_electricity",
"Cons_Ind_electricity",
"Cons_Commerce_electricity",
"Cons_Municip_electricity",
"Cons_Home_heat",
"Cons_Ind_heat",
"Cons_Commerce_heat",
"Cons_Municip_heat"
), Key = "")


formula <- function(dependencies, ...) {
balance <- Ovariable("balance", ddata = "Op_en5816.equations")


ComputeDependencies(dependencies, ...)
nonlinearity <- Ovariable("nonlinearity", ddata = "Op_en5141", subset = "No nonlinearities")


## Define the energy transformation matrix ETM.
directinput <- Ovariable("directinput", ddata = "Op_en5141", subset = "No modelled upstream variables")


# Get the data from Opasnet Base.
energy.balance <- EvalOutput(energy.balance)


ETM <- tidy(op_baseGetData("opasnet_base", Matrix_page), objname = "ETM", direction = "wide")
oprint(summary(energy.balance))


# Add user-defined data to it.
ggplot(energy.balance@output, aes_string(x = "energybalanceVars", y = "energy.balanceResult")) +
geom_boxplot() +
facet_wrap(~Year, ncol = 1) +
theme_grey(base_size = 24) +
theme(axis.text.x = element_text(angle = 90, hjust = 1, vjust= 0.2))


additions <- data.frame(
</rcode>
Equation = "Fraction CHP renewable",
Col = "CHP peat",
ETMResult = Frac_CHP_renew,
ETMDescription = "Renewable amount divided by peat. BAU: 78.1/1435.7 = 0.0544 Actual number given by user."
)
ETM <- rbind(ETM, additions)


# Reshape the table to make a matrix, and replace NA with 0.
==Rationale==


ETM <- reshape(ETM, timevar = "Col", idvar = "Equation", v.names = "ETMResult", direction = "wide")
There are several [[energy transformations]] that each describe a specific process of energy production or use. Per unit activity, there is a constant amount of different inputs and outputs into and from this process, respectively. These unit processes are used for Suzhou in such a way that one critical input or output from each relevant energy transformation is listed here; all other inputs and outputs logically follow from the nature of the transformation process.
colnames(ETM) <- gsub("ETMResult.", "", colnames(ETM))


print(xtable(ETM), type = 'html') # Show the matrix with explanations.
===Data===


ETM <- as.matrix(ETM[, !colnames(ETM) %in% c("Equation", "ETMDescription")])
<t2b name="Equations" index="Year,Equation" obs="Dummy" desc="Description" unit="GWh /a?">
2010|TP raw coal + TP natural gas + TP oil products + TP coal products + TP other energy + TP heat = TP electricity + TP loss|1|In energy balance, inputs and outputs cancel out. Balance Thermal Power Plants. 17194.0 + 670.9 + 21.4 + 1145.5 + 198.0 + 54.7 = 7460.4 + 11824.1, respectively (GWh /a?).
2010|TP natural gas  = 0.039019425*TP raw coal|1| Fraction from TP raw coal.
2010|TP oil products  = 0.001244620*TP raw coal|1| Fraction from TP raw coal.
2010|TP coal products = 0.066622077*TP raw coal|1| Fraction from TP raw coal.
2010|TP other energy  = 0.011515645*TP raw coal|1| Fraction from TP raw coal.
2010|TP heat          = 0.003181342*TP raw coal|1| Fraction from TP raw coal.
2010|TP electricity  = 0.630948656*TP loss    |1| Fraction from TP loss.
2010|H raw coal + H natural gas + H oil products + H coal products + H other energy = H heat + H loss|-1|Balance Heating Supply. In energy balance, inputs and outputs cancle out
2010|H natural gas + H oil products + H coal products + H other energy = 0.158111641*H raw coal|-1|(88,0+38,6+360,3+27,2)/3251,5 Others divided by raw coal. Fraction H raw coal. Sum of other fuels is used as comparison for raw coal
2010|H raw coal + H oil products + H coal products + H other energy = 41.79090909*H natural gas|-1|(3251,5+38,6+360,3+27,2)/88,0 Others divided by natural gas. Fraction H natural gas. Sum of other fuels is used as comparison for natural gas
2010|H raw coal + H natural gas + H coal products + H other energy = 96.55440415*H oil products|-1|(3251,5+88,0+360,3+27,2)/38,6 Others divided by oil products. Sum of other fuels is used as comparison for oil products. Fraction H oil products
2010|H raw coal + H natural gas + H oil products + H other energy = 9.451290591*H coal products|-1|(3251,5+88,0+38,6+27,2)/360,3 Others divided by coal products. Fraction H coal products. Sum of other fuels is used as comparison for coal products
2010|H heat = 4.451715651*H loss|-1|3074,8/690,7 heat per loss. Fraction H loss. Amount of heat is used as comparison for loss
2010|CP raw coal + CP natural gas + CP oil products = CP coal products + CP loss|1|Balance Coal Processing. In energy balance, inputs and outputs cancel out
2010|CP natural gas + CP oil products = 0.004725972*CP raw coal|-1|(0,007+0,0172)/5,12064 Others divided by raw coal. Fraction CP raw coal. Sum of other fuels is used as comparison for raw coal
2010|CP oil products = 24.57142857*CP natural gas|1|0,01720/0,0007 oil products divided by natural gas. Fraction CP natural gas. Amount of oil products is used as comparison for natural gas
2010|CP coal products = 6.341763109*CP loss|1|4,4386/0,6999 coal products per loss. Fraction CP loss. Amount of coal products is used as comparison for loss
2010|Loss heat = 0.029823078*H heat|1|91,7/3074,8. Transmission loss heat. Known loss divided by production
2010|Loss oil products = 0.953271028*TP oil products|1|20,4/21,4. Transmission loss oil products. Known loss divided by oil products used in TP
2010|Loss electricity = 0.085276929*TP electricity|1|636,2/7460,4. Transmission loss electricity. Known loss divided by production
2010|Loss natural gas = 0.3625*H natural gas|1|31,9/88,0. Transmission loss natural gas. Known loss divided by natural gas used in H
2010|Bought electricity + TP electricity = Loss electricity + Cons Agri electricity + Cons Ind electricity + Cons Transportation electricity + Cons Commerce electricity + Cons Households electricity|1|Electricity use balance. In energy balance, inputs and outputs cancel out
2010|H heat = Loss heat + Cons Ind heat + Cons Commerce heat|1|Heat use balance. In energy balance, inputs and outputs cancel out
2010|Cons Agri electricity = 25.8468532|1|Consumed electricity agriculture
2010|Cons Ind electricity = 7032.044935|1|Consumed electricity industry
2010|Cons Transportation electricity = 49.8664292|1|Consumed electricity transportation
2010|Cons Commerce electricity = 684.7050273|1|Consumed electricity commerce
2010|Cons Households electricity = 625.3804599|1|Consumed electricity households
2010|Cons Ind heat = 2981.313692|1|Consumed heat industry
2010|Cons Commerce heat = 1.732034769|1|Consumed heat commerce
2010|TP electricity = 7460.4|1|Electricity produced by thermal power. Assumes that there is no capacity to increase production.
2010|CP coal products = 4.4386|1|Coal products produced
2020|TP raw coal + TP natural gas + TP oil products + TP coal products + TP other energy + TP heat = TP electricity + TP loss|1|In energy balance, inputs and outputs cancel out. Balance Thermal Power Plants.
2020|TP natural gas  = 0.0390180013341954*TP raw coal|1| Fraction from TP raw coal.
2020|TP oil products  = 0.00124415516846148*TP raw coal|1| Fraction from TP raw coal.
2020|TP coal products = 0.0666203905225772*TP raw coal|1| Fraction from TP raw coal.
2020|TP other energy  = 0.0115132299117319*TP raw coal|1| Fraction from TP raw coal.
2020|TP heat          = 0.00318231341226894*TP raw coal|1| Fraction from TP raw coal.
2020|TP electricity  = 0.630946878757119*TP loss    |1| Fraction from TP loss.
2020|H raw coal + H natural gas + H oil products + H coal products + H other energy = H heat + H loss|-1|Balance Heating Supply. In energy balance, inputs and outputs cancle out
2020|H natural gas + H oil products + H coal products + H other energy = 0.158087304841969*H raw coal|-1|Others divided by raw coal. Fraction H raw coal. Sum of other fuels is used as comparison for raw coal
2020|H raw coal + H oil products + H coal products + H other energy = 41.7716151890517*H natural gas|-1|Others divided by natural gas. Fraction H natural gas. Sum of other fuels is used as comparison for natural gas
2020|H raw coal + H natural gas + H coal products + H other energy = 96.6515588433253*H oil products|-1|Others divided by oil products. Sum of other fuels is used as comparison for oil products. Fraction H oil products
2020|H raw coal + H natural gas + H oil products + H other energy = 9.45240021414551*H coal products|-1|Others divided by coal products. Fraction H coal products. Sum of other fuels is used as comparison for coal products
2020|H heat = 4.45146745537653*H loss|-1|heat per loss. Fraction H loss. Amount of heat is used as comparison for loss
2020|CP raw coal + CP natural gas + CP oil products = CP coal products + CP loss|1|Balance Coal Processing. In energy balance, inputs and outputs cancel out
2020|CP natural gas + CP oil products = 0.00349890225051744*CP raw coal|-1|Others divided by raw coal. Fraction CP raw coal. Sum of other fuels is used as comparison for raw coal
2020|CP oil products = 24.1033082706767*CP natural gas|1|oil products divided by natural gas. Fraction CP natural gas. Amount of oil products is used as comparison for natural gas
2020|CP coal products = 6.34159395844515*CP loss|1|coal products per loss. Fraction CP loss. Amount of coal products is used as comparison for loss
2020|Loss heat = 0.0298263751792101*H heat|1|Transmission loss heat. Known loss divided by production
2020|Loss oil products = 0.833579527132038*TP oil products|1|Transmission loss oil products. Known loss divided by oil products used in TP
2020|Loss electricity = 0.0852839003677908*TP electricity|1|Transmission loss electricity. Known loss divided by production
2020|Loss natural gas = 0.414682168778854*H natural gas|1|Transmission loss natural gas. Known loss divided by natural gas used in H
2020|Bought electricity + TP electricity = Loss electricity + Cons Agri electricity + Cons Ind electricity + Cons Transportation electricity + Cons Commerce electricity + Cons Households electricity|1|Electricity use balance. In energy balance, inputs and outputs cancel out
2020|H heat = Loss heat + Cons Ind heat + Cons Commerce heat|1|Heat use balance. In energy balance, inputs and outputs cancel out
2020|Cons Agri electricity = 29.72388118|1|Consumed electricity agriculture
2020|Cons Ind electricity = 9844.8629091652|1|Consumed electricity industry
2020|Cons Transportation electricity = 89.75957256|1|Consumed electricity transportation
2020|Cons Commerce electricity = 787.410781395|1|Consumed electricity commerce
2020|Cons Households electricity = 719.187528885|1|Consumed electricity households
2020|Cons Ind heat = 4173.83916836834|1|Consumed heat industry
2020|Cons Commerce heat = 1.991839984065|1|Consumed heat commerce
2020|TP electricity = 11936.5867936|1|Electricity produced by thermal power. Assumes that there is no capacity to increase production.
2020|CP coal products = 6.21409115526259|1|Coal products produced
</t2b>


for(i in 1:ncol(ETM)) {
There are no nonlinearities.
ETM[is.na(ETM[, i]), i] <- 0
}


# Define the outputs for equations (for most equations, it is a zero sum game).
=== Dependencies ===


out <- c(rep(0, 18), # Define the consumptions (and other known variables).
* [[Energy balance]]
Ind_process_heat,
Cons_Home_electricity,
Cons_Ind_electricity,
Cons_Commerce_electricity,
Cons_Municip_electricity,
Cons_Home_heat,
Cons_Ind_heat,
Cons_Commerce_heat,
Cons_Municip_heat
)


out <- solve(ETM, out) # Solve the matrix.
=== Calculations ===
out <- data.frame(Energy.class = colnames(ETM), Result = out)
 
return(out)
}
 
energy.balance.Suzhou <- new("ovariable",
name = "energy.balance.Suzhou",
dependencies = dependencies,
formula = formula
)
 
temp <- EvalOutput(energy.balance.Suzhou)
print(xtable(temp@output), type = 'html')
 
objects.put(energy.balance.Suzhou)
 
cat("Object energy.balance.Suzhou saved. Write down the key of the model run page for further use.\n"
</rcode>


The model first creates the matrix and shows it to the user, and then it fills all empty cells with 0 and solves it by using the input values the user has given via the user interface. (The user interface can later be replaced by another model.) All the current input values are final consumptions, and the default values are based on the Kuopio data.
* See [[Energy balance]].
* [http://en.opasnet.org/en-opwiki/index.php?title=Energy_balance_in_Suzhou&oldid=30539 Model version] used to run results for ISEE2013. [http://en.opasnet.org/en-opwiki/index.php/Special:R-tools?id=fm0tUpTVRAgk1i90 Model run 18 Aug 2013]
* [http://en.opasnet.org/en-opwiki/index.php?title=Energy_balance_in_Suzhou&oldid=29360 Previous model version]
** [http://en.opasnet.org/en-opwiki/index.php/Special:R-tools?id=wpVQ2EDDBFJLrCFz Model run from a previous version] (there is a problem with data).


==See also==
==See also==

Latest revision as of 05:28, 17 May 2015



Question

What are the amounts of energy produced, consumed, imported, and exported in Suzhou?

Answer

+ Show code

Rationale

There are several energy transformations that each describe a specific process of energy production or use. Per unit activity, there is a constant amount of different inputs and outputs into and from this process, respectively. These unit processes are used for Suzhou in such a way that one critical input or output from each relevant energy transformation is listed here; all other inputs and outputs logically follow from the nature of the transformation process.

Data

Equations(GWh /a?)
ObsYearEquationDummyDescription
12010TP raw coal + TP natural gas + TP oil products + TP coal products + TP other energy + TP heat = TP electricity + TP loss1In energy balance, inputs and outputs cancel out. Balance Thermal Power Plants. 17194.0 + 670.9 + 21.4 + 1145.5 + 198.0 + 54.7 = 7460.4 + 11824.1, respectively (GWh /a?).
22010TP natural gas = 0.039019425*TP raw coal1 Fraction from TP raw coal.
32010TP oil products = 0.001244620*TP raw coal1 Fraction from TP raw coal.
42010TP coal products = 0.066622077*TP raw coal1 Fraction from TP raw coal.
52010TP other energy = 0.011515645*TP raw coal1 Fraction from TP raw coal.
62010TP heat = 0.003181342*TP raw coal1 Fraction from TP raw coal.
72010TP electricity = 0.630948656*TP loss 1 Fraction from TP loss.
82010H raw coal + H natural gas + H oil products + H coal products + H other energy = H heat + H loss-1Balance Heating Supply. In energy balance, inputs and outputs cancle out
92010H natural gas + H oil products + H coal products + H other energy = 0.158111641*H raw coal-1(88,0+38,6+360,3+27,2)/3251,5 Others divided by raw coal. Fraction H raw coal. Sum of other fuels is used as comparison for raw coal
102010H raw coal + H oil products + H coal products + H other energy = 41.79090909*H natural gas-1(3251,5+38,6+360,3+27,2)/88,0 Others divided by natural gas. Fraction H natural gas. Sum of other fuels is used as comparison for natural gas
112010H raw coal + H natural gas + H coal products + H other energy = 96.55440415*H oil products-1(3251,5+88,0+360,3+27,2)/38,6 Others divided by oil products. Sum of other fuels is used as comparison for oil products. Fraction H oil products
122010H raw coal + H natural gas + H oil products + H other energy = 9.451290591*H coal products-1(3251,5+88,0+38,6+27,2)/360,3 Others divided by coal products. Fraction H coal products. Sum of other fuels is used as comparison for coal products
132010H heat = 4.451715651*H loss-13074,8/690,7 heat per loss. Fraction H loss. Amount of heat is used as comparison for loss
142010CP raw coal + CP natural gas + CP oil products = CP coal products + CP loss1Balance Coal Processing. In energy balance, inputs and outputs cancel out
152010CP natural gas + CP oil products = 0.004725972*CP raw coal-1(0,007+0,0172)/5,12064 Others divided by raw coal. Fraction CP raw coal. Sum of other fuels is used as comparison for raw coal
162010CP oil products = 24.57142857*CP natural gas10,01720/0,0007 oil products divided by natural gas. Fraction CP natural gas. Amount of oil products is used as comparison for natural gas
172010CP coal products = 6.341763109*CP loss14,4386/0,6999 coal products per loss. Fraction CP loss. Amount of coal products is used as comparison for loss
182010Loss heat = 0.029823078*H heat191,7/3074,8. Transmission loss heat. Known loss divided by production
192010Loss oil products = 0.953271028*TP oil products120,4/21,4. Transmission loss oil products. Known loss divided by oil products used in TP
202010Loss electricity = 0.085276929*TP electricity1636,2/7460,4. Transmission loss electricity. Known loss divided by production
212010Loss natural gas = 0.3625*H natural gas131,9/88,0. Transmission loss natural gas. Known loss divided by natural gas used in H
222010Bought electricity + TP electricity = Loss electricity + Cons Agri electricity + Cons Ind electricity + Cons Transportation electricity + Cons Commerce electricity + Cons Households electricity1Electricity use balance. In energy balance, inputs and outputs cancel out
232010H heat = Loss heat + Cons Ind heat + Cons Commerce heat1Heat use balance. In energy balance, inputs and outputs cancel out
242010Cons Agri electricity = 25.84685321Consumed electricity agriculture
252010Cons Ind electricity = 7032.0449351Consumed electricity industry
262010Cons Transportation electricity = 49.86642921Consumed electricity transportation
272010Cons Commerce electricity = 684.70502731Consumed electricity commerce
282010Cons Households electricity = 625.38045991Consumed electricity households
292010Cons Ind heat = 2981.3136921Consumed heat industry
302010Cons Commerce heat = 1.7320347691Consumed heat commerce
312010TP electricity = 7460.41Electricity produced by thermal power. Assumes that there is no capacity to increase production.
322010CP coal products = 4.43861Coal products produced
332020TP raw coal + TP natural gas + TP oil products + TP coal products + TP other energy + TP heat = TP electricity + TP loss1In energy balance, inputs and outputs cancel out. Balance Thermal Power Plants.
342020TP natural gas = 0.0390180013341954*TP raw coal1 Fraction from TP raw coal.
352020TP oil products = 0.00124415516846148*TP raw coal1 Fraction from TP raw coal.
362020TP coal products = 0.0666203905225772*TP raw coal1 Fraction from TP raw coal.
372020TP other energy = 0.0115132299117319*TP raw coal1 Fraction from TP raw coal.
382020TP heat = 0.00318231341226894*TP raw coal1 Fraction from TP raw coal.
392020TP electricity = 0.630946878757119*TP loss 1 Fraction from TP loss.
402020H raw coal + H natural gas + H oil products + H coal products + H other energy = H heat + H loss-1Balance Heating Supply. In energy balance, inputs and outputs cancle out
412020H natural gas + H oil products + H coal products + H other energy = 0.158087304841969*H raw coal-1Others divided by raw coal. Fraction H raw coal. Sum of other fuels is used as comparison for raw coal
422020H raw coal + H oil products + H coal products + H other energy = 41.7716151890517*H natural gas-1Others divided by natural gas. Fraction H natural gas. Sum of other fuels is used as comparison for natural gas
432020H raw coal + H natural gas + H coal products + H other energy = 96.6515588433253*H oil products-1Others divided by oil products. Sum of other fuels is used as comparison for oil products. Fraction H oil products
442020H raw coal + H natural gas + H oil products + H other energy = 9.45240021414551*H coal products-1Others divided by coal products. Fraction H coal products. Sum of other fuels is used as comparison for coal products
452020H heat = 4.45146745537653*H loss-1heat per loss. Fraction H loss. Amount of heat is used as comparison for loss
462020CP raw coal + CP natural gas + CP oil products = CP coal products + CP loss1Balance Coal Processing. In energy balance, inputs and outputs cancel out
472020CP natural gas + CP oil products = 0.00349890225051744*CP raw coal-1Others divided by raw coal. Fraction CP raw coal. Sum of other fuels is used as comparison for raw coal
482020CP oil products = 24.1033082706767*CP natural gas1oil products divided by natural gas. Fraction CP natural gas. Amount of oil products is used as comparison for natural gas
492020CP coal products = 6.34159395844515*CP loss1coal products per loss. Fraction CP loss. Amount of coal products is used as comparison for loss
502020Loss heat = 0.0298263751792101*H heat1Transmission loss heat. Known loss divided by production
512020Loss oil products = 0.833579527132038*TP oil products1Transmission loss oil products. Known loss divided by oil products used in TP
522020Loss electricity = 0.0852839003677908*TP electricity1Transmission loss electricity. Known loss divided by production
532020Loss natural gas = 0.414682168778854*H natural gas1Transmission loss natural gas. Known loss divided by natural gas used in H
542020Bought electricity + TP electricity = Loss electricity + Cons Agri electricity + Cons Ind electricity + Cons Transportation electricity + Cons Commerce electricity + Cons Households electricity1Electricity use balance. In energy balance, inputs and outputs cancel out
552020H heat = Loss heat + Cons Ind heat + Cons Commerce heat1Heat use balance. In energy balance, inputs and outputs cancel out
562020Cons Agri electricity = 29.723881181Consumed electricity agriculture
572020Cons Ind electricity = 9844.86290916521Consumed electricity industry
582020Cons Transportation electricity = 89.759572561Consumed electricity transportation
592020Cons Commerce electricity = 787.4107813951Consumed electricity commerce
602020Cons Households electricity = 719.1875288851Consumed electricity households
612020Cons Ind heat = 4173.839168368341Consumed heat industry
622020Cons Commerce heat = 1.9918399840651Consumed heat commerce
632020TP electricity = 11936.58679361Electricity produced by thermal power. Assumes that there is no capacity to increase production.
642020CP coal products = 6.214091155262591Coal products produced

There are no nonlinearities.

Dependencies

Calculations

See also

Urgenche research project 2011 - 2014: city-level climate change mitigation
Urgenche pages

Urgenche main page · Category:Urgenche · Urgenche project page (password-protected)

Relevant data
Building stock data in Urgenche‎ · Building regulations in Finland · Concentration-response to PM2.5 · Emission factors for burning processes · ERF of indoor dampness on respiratory health effects · ERF of several environmental pollutions · General criteria for land use · Indoor environment quality (IEQ) factors · Intake fractions of PM · Land use in Urgenche · Land use and boundary in Urgenche · Energy use of buildings

Relevant methods
Building model · Energy balance · Health impact assessment · Opasnet map · Help:Drawing graphs · OpasnetUtils‎ · Recommended R functions‎ · Using summary tables‎

City Kuopio
 Climate change policies and health in Kuopio (assessment) · Climate change policies in Kuopio (plausible city-level climate policies) · Health impacts of energy consumption in Kuopio · Building stock in Kuopio · Cost curves for energy (prioritization of options) · Energy balance in Kuopio (energy data) · Energy consumption and GHG emissions in Kuopio by sector · Energy consumption classes (categorisation) · Energy consumption of heating of buildings in Kuopio · Energy transformations (energy production and use processes) · Fuels used by Haapaniemi energy plant · Greenhouse gas emissions in Kuopio · Haapaniemi energy plant in Kuopio · Land use in Kuopio · Building data availability in Kuopio · Password-protected pages: File:Heat use in Kuopio.csv · Kuopio housing

City Basel
 Buildings in Basel (password-protected)

Energy balances
Energy balance in Basel · Energy balance in Kuopio · Energy balance in Stuttgart · Energy balance in Suzhou


Keywords

References


Related files

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