Energy balance in Stuttgart 2010: Difference between revisions

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Question

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

Answer

⇤--#: . Rcode for using the ovariable is needed. --Jouni 23:03, 26 February 2013 (EET) (type: truth; paradigms: science: attack)

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 Stuttgart 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?)
Obs	Equation	Dummy	Description
1	STP renewable energy + STP electricity = STP local heating	1	Balance Solar Thermal Pump. In energy balance, inputs and outputs cancel out
2	STP electricity = 0.363636364*STP renewable energy	1	Fraction STP renewable energy. Amount of electricity is used as comparison for renewable energy. 12/34 Electricity divided by renewable energy
3	CHP gas + CHP renewable energy + CHP mineral oil = CHP local heating + CHP electricity + CHP loss	1	Balance CHP Plants. In energy balance, inputs and outputs cancel out
4	CHP renewable energy + CHP mineral oil = 0.564814815*CHP gas	1	Fraction CHP gas. Sum of other fuels is used as comparison for gas. (116+11)/33 Others divided by gas
5	CHP gas + CHP mineral oil = 2.12962963*CHP renewable energy	1	Sum of other fuels is used as comparison for renewable energy. Fraction CHP renewable energy. (33+11)/116 Others divided by renewable energy
6	CHP electricity + CHP loss = 1.770491803*CHP local heating	1	Fraction CHP local heating. Sum of other outputs is used as comparison for local heating. (27+96)/37 Others divided by local heating.
7	CHP local heating + CHP loss = 3.023809524*CHP electricity	1	Fraction CHP electricity. Sum of other outputs is used as comparison for electricity. (37+96)/27 Others divided by electricity
8	WWP renewable energy = WWP electricity	1	Balance Water, Wind, Photovlotaics. In energy balance, inputs and outputs cancel out
9	TPP electricity input + TPP mineral oil + TPP gas = TPP local heating + TPP electricity output + TPP loss	1	Balance Thermal Power Plant Pfaffenwald. In energy balance, inputs and outputs cancel out
10	TPP mineral oil + TPP gas = 23.33333333*TPP electricity input	1	Fraction TPP electricity input. Sum of other fuels is used as comparison for electricity input. (17+217)/9 Others divided by electricity input
11	TPP electricity input + TPP gas = 4.093023256*TPP mineral oil	1	Fraction TPP mineral oil. Sum of other fuels is used as comparison for mineral oil. (9+217)/17 Others divided by mineral oil
12	TPP electricity output + TPP loss = 0.335365854*TPP local heating	1	Fraction TPP local heating. Sum of other outputs is used as comparison for local heating. (61+6)/176 Others divided by local heating
13	TPP local heating +TPP loss = 3.38*TPP electricity output	1	Fraction TPP electricity output. Sum of other outputs is used as comparison for electricity. (176+6)/61 Others divided by electricity
14	TPE waste + TPE gas + TPE coal + TPE mineral oil = TPE electricity + TPE district heating + TPE loss	1	Balance Thermal Power Plant EVU. In energy balance, inputs and outputs cancel out
15	TPE gas + TPE coal + TPE mineral oil = 1.04973357*TPE waste	1	Fraction TPE waste. Sum of other fuels is used as comparison for waste. (162+1019+1)/1272 Others divided by waste
16	TPE waste + TPE coal + TPE mineral oil = 13.24691358*TPE gas	1	Fraction TPE gas. Sum of other fuels is used as comparison for gas. (1272+1019+1)/162 Others divided by gas
17	TPE waste + TPE gas + TPE mineral oil = 1.264965653*TPE coal	1	Fraction TPE coal. Sum of other fuels is used as comparison for coal. (1272+162+1)/1019 Others divided by coal
18	TPE district heating + TPE loss = 5.089709763*TPE electricity	1	Fraction TPE electricity. Sum of other outputs is used as comparison for electricity. (1171+881)/402 Others divided by electricity
19	TPE electricity + TPE loss = 1.096276113*TPE district heating	1	Fraction TPE district heating. Sum of other outputs is used as comparison for district heating. (402+881)/1171 Others divided by district heating
20	Ind gas = Ind electricity + Ind loss	1	Balance Industrial Plants. In energy balance, inputs and outputs cancel out
21	Ind electricity = 0.533333333*Ind loss	1	Fraction Ind loss. Amount of district heating is used as comparison for loss. 8/15 district heating per loss
22	STP local heating = 0.245901639*CHP local heating	1	Fraction local heating producers. CHP local heating production is used as reference. 46/37 STP local heating divided by CHP local heating
23	Ind electricity = 0.095238095*CHP electricity	1	Fraction electricity producers 1. 8/1171 Ind electricity divided by TPE district heating VÄÄRIN 2008 sivulla??
24	WWP electricity = 0.797619048*CHP electricity	1	Fraction electricity producers 2. CHP electricity production is used as reference. 52/27 WWP electricity divided by CHP electricity
25	TPP electricity output = 0.595238095*CHP electricity	1	Fraction electricity producers 3. CHP electricity production is used as reference. 61/27 TPP electricity divided by CHP electricity
26	TPE electricity = 4.511904762*CHP electricity	1	Fraction electricity producers 4. CHP electricity production is used as reference. 402/27 TPE electricity divided by CHP electricity
27	Loss local heating = 0.041139241STP local heating + 0.041139241CHP local heating + 0.041139241*TPP local heating	1	Transmission loss local heating. Known loss divided by production. 15/(46+37+176)
28	Loss electricity = 0.221088435CHP electricity + 0.221088435WWP electricity + 0.221088435TPP electricity output + 0.221088435TPE electricity + 0.221088435*Ind electricity	1	Transmission loss electricity. Known loss divided by production. 121/(27+52+61+402+8)
29	Loss district heating = 0.109900091*TPE district heating	1	Transmission loss district heating. Known loss divided by production. 120/1171
30	CES local heating = 0.366666667*STP local heating	1	Consumption in the Energy Sector local heating. STP local heating is used as reference. 10/46
31	CES electricity = 1.392857143*CHP electricity	1	Consumption in the Energy Sector electricity. CHP electricity is used as reference. 115/27
32	V renewable energy = 0.272727273*STP renewable energy	1	Vorketten renewable energy. STP renewable energy is used as reference. 8/34
33	V coal = 0.103042198*TPE coal	1	Vorketten coal. TPE coal is used as reference. 105/1019
34	V electricity = 17.79683377*TPE electricity	1	Vorketten electricity. TPE electricity is used as reference. 5799/402
35	V gas = 2.027777778*CHP gas	1	Vorketten gas. CHP gas is used as reference. 468/33
36	V mineral oil = 12.3255814*TPP mineral oil	1	Vorketten mineral oil. TPP mineral oil is used as reference. 533/17
37	Bought electricity + CHP electricity + WWP electricity + TPP electricity output + TPE electricity + Ind electricity = STP electricity + TPP electricity input + Loss electricity + CES electricity + V electricity + Cons Ind electricity + Cons Traffic electricity + Cons Home electricity + Cons Commerce electricity	1	Electricity use balance. In energy balance, inputs and outputs cancel out
38	STP local heating + CHP local heating + TPP local heating = Loss local heating + CES local heating + Cons Ind local heating + Cons Home local heating + Cons Commerce local heating	1	Local heating balance. In energy balance, inputs and outputs cancel out
39	Bought district heating + TPE district heating = Loss district heating + Cons Ind district heating + Cons Home district heating + Cons Commerce district heating	1	District heating balance. In energy balance, inputs and outputs cancel out
40	Cons Ind electricity = 2390	1	Consumed electricity industry
41	Cons Traffic electricity = 225	1	Consumed electricity traffic
42	Cons Home electricity = 1047	1	Consumed electricity households
43	Cons Commerce electricity = 498	1	Consumed electricity commerce
44	Cons Ind local heating = 6	1	Consumed local heating industry
45	Cons Home local heating = 34	1	Consumed local heating households
46	Cons Commerce local heating = 194	1	Consumed local heating commerce
47	Cons Ind district heating = 394	1	Consumed districit heating industry
48	Cons Home district heating = 73	1	Consumed districit heating households
49	Cons Commerce district heating = 927	1	Consumed districit heating commerce

There are no nonlinearities.

Calculations

+ Show code - Hide code

library(OpasnetUtils)
library(ggplot2)

N <- 10

objects.latest("Op_en5141", code_name = "initiate")

balance <- Ovariable("balance", ddata = "Op_en5815.equations")

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

directinput <- Ovariable("directinput", ddata = "Op_en5141", subset = "No modelled upstream variables")

energy.balance <- EvalOutput(energy.balance) 

oprint(summary(energy.balance))

ggplot(energy.balance@output, aes_string(x = "energybalanceVars", y = "energy.balanceResult")) + 
	geom_boxplot() +
	theme_grey(base_size = 24) + 
	theme(axis.text.x = element_text(angle = 90, hjust = 1, vjust= 0.2))

# objects.store(energy.balance)

See Energy balance.
Model version for ISEE 2013 results. Model run
Old code available here. Unfortunately it does not run any more, because input data has been reformatted.

Keywords

References

Related files

@@ Line 49: / Line 49: @@
 Loss electricity = 0.221088435*CHP electricity + 0.221088435*WWP electricity + 0.221088435*TPP electricity output + 0.221088435*TPE electricity + 0.221088435*Ind electricity|1|Transmission loss electricity. Known loss divided by production. 121/(27+52+61+402+8)
 Loss district heating = 0.109900091*TPE district heating|1|Transmission loss district heating. Known loss divided by production. 120/1171
-CES local heating = 0.366666667*STP local heating|1|Consumption in the Energy Sector local heating. STP local heating is used as reference. 11/30
+CES local heating = 0.366666667*STP local heating|1|Consumption in the Energy Sector local heating. STP local heating is used as reference. 10/46
-CES electricity = 1.392857143*CHP electricity|1|Consumption in the Energy Sector electricity. CHP electricity is used as reference. 117/84
+CES electricity = 1.392857143*CHP electricity|1|Consumption in the Energy Sector electricity. CHP electricity is used as reference. 115/27
-V renewable energy = 0.272727273*STP renewable energy|1|Vorketten renewable energy. STP renewable energy is used as reference. 6/22
+V renewable energy = 0.272727273*STP renewable energy|1|Vorketten renewable energy. STP renewable energy is used as reference. 8/34
 V coal = 0.103042198*TPE coal|1|Vorketten coal. TPE coal is used as reference. 105/1019
-V electricity = 17.79683377*TPE electricity|1|Vorketten electricity. TPE electricity is used as reference. 6745/379
+V electricity = 17.79683377*TPE electricity|1|Vorketten electricity. TPE electricity is used as reference. 5799/402
-V gas = 2.027777778*CHP gas|1|Vorketten gas. CHP gas is used as reference. 438/216
+V gas = 2.027777778*CHP gas|1|Vorketten gas. CHP gas is used as reference. 468/33
-V mineral oil = 12.3255814*TPP mineral oil|1|Vorketten mineral oil. TPP mineral oil is used as reference. 530/43
+V mineral oil = 12.3255814*TPP mineral oil|1|Vorketten mineral oil. TPP mineral oil is used as reference. 533/17
 Bought electricity + CHP electricity + WWP electricity + TPP electricity output + TPE electricity + Ind electricity = STP electricity + TPP electricity input + Loss electricity + CES electricity + V electricity + Cons Ind electricity + Cons Traffic electricity + Cons Home electricity + Cons Commerce electricity|1|Electricity use balance. In energy balance, inputs and outputs cancel out
 STP local heating + CHP local heating + TPP local heating = Loss local heating + CES local heating + Cons Ind local heating + Cons Home local heating + Cons Commerce local heating|1|Local heating balance. In energy balance, inputs and outputs cancel out
 Bought district heating + TPE district heating = Loss district heating + Cons Ind district heating + Cons Home district heating + Cons Commerce district heating|1|District heating balance. In energy balance, inputs and outputs cancel out
-Cons Ind electricity = 2257|1|Consumed electricity industry
+Cons Ind electricity = 2390|1|Consumed electricity industry
-Cons Traffic electricity = 224|1|Consumed electricity traffic
+Cons Traffic electricity = 225|1|Consumed electricity traffic
-Cons Home electricity = 1077|1|Consumed electricity households
+Cons Home electricity = 1047|1|Consumed electricity households
-Cons Commerce electricity = 695|1|Consumed electricity commerce
+Cons Commerce electricity = 498|1|Consumed electricity commerce
-Cons Ind local heating = 35|1|Consumed local heating industry
+Cons Ind local heating = 6|1|Consumed local heating industry
-Cons Home local heating = 54|1|Consumed local heating households
+Cons Home local heating = 34|1|Consumed local heating households
-Cons Commerce local heating = 203|1|Consumed local heating commerce
+Cons Commerce local heating = 194|1|Consumed local heating commerce
-Cons Ind district heating = 513|1|Consumed districit heating industry
+Cons Ind district heating = 394|1|Consumed districit heating industry
-Cons Home district heating = 35|1|Consumed districit heating households
+Cons Home district heating = 73|1|Consumed districit heating households
-Cons Commerce district heating = 851|1|Consumed districit heating commerce
+Cons Commerce district heating = 927|1|Consumed districit heating commerce
 </t2b>