Energy balance in Stuttgart: Difference between revisions
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=== Calculations === | === Calculations === | ||
<t2b name="test" index="energybalanceVars" obs="Result" unit="-"> | |||
ConsInddistrictheating|400 | |||
</t2b> | |||
<rcode name="answer" graphics="1"> | <rcode name="answer" graphics="1"> | ||
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nonlinearity <- Ovariable("nonlinearity", ddata = "Op_en5141", subset = "No nonlinearities") | 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) | energy.balance <- EvalOutput(energy.balance) |
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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
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. 8/22 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. (108+14)/216 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. (216+14)/108 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. (84+132)/122 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. (122+132)/84 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. (43+167)/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+167)/43 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. (50+5)/164 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. (164+5)/50 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)/1126 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. (1126+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. (1126+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. (1101+828)/379 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. (379 +828)/1101 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. 30/122 STP local heating divided by CHP local heating |
23 | Ind electricity = 0.095238095*CHP electricity | 1 | Fraction electricity producers 1. 8/84 Ind electricity divided by TPE district heating |
24 | WWP electricity = 0.797619048*CHP electricity | 1 | Fraction electricity producers 2. CHP electricity production is used as reference. 67/84 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. 50/84 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. 379/84 TPE electricity divided by CHP electricity |
27 | Loss local heating = 0.041139241*STP local heating + 0.041139241*CHP local heating + 0.041139241*TPP local heating | 1 | Transmission loss local heating. Known loss divided by production. 13/(30+122+164) |
28 | 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. 130/(84+67+50+379+8) |
29 | Loss district heating = 0.109900091*TPE district heating | 1 | Transmission loss district heating. Known loss divided by production. 121/1101 |
30 | 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 |
31 | CES electricity = 1.392857143*CHP electricity | 1 | Consumption in the Energy Sector electricity. CHP electricity is used as reference. 117/84 |
32 | V renewable energy = 0.272727273*STP renewable energy | 1 | Vorketten renewable energy. STP renewable energy is used as reference. 6/22 |
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. 6745/379 |
35 | V gas = 2.027777778*CHP gas | 1 | Vorketten gas. CHP gas is used as reference. 438/216 |
36 | V mineral oil = 12.3255814*TPP mineral oil | 1 | Vorketten mineral oil. TPP mineral oil is used as reference. 530/43 |
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 = 2257 | 1 | Consumed electricity industry |
41 | Cons Traffic electricity = 224 | 1 | Consumed electricity traffic |
42 | Cons Home electricity = 1077 | 1 | Consumed electricity households |
43 | Cons Commerce electricity = 695 | 1 | Consumed electricity commerce |
44 | Cons Ind local heating = 35 | 1 | Consumed local heating industry |
45 | Cons Home local heating = 54 | 1 | Consumed local heating households |
46 | Cons Commerce local heating = 203 | 1 | Consumed local heating commerce |
47 | Cons Ind district heating = 513 | 1 | Consumed districit heating industry |
48 | Cons Home district heating = 35 | 1 | Consumed districit heating households |
49 | Cons Commerce district heating = 851 | 1 | Consumed districit heating commerce |
There are no nonlinearities.
Calculations
Obs | energybalanceVars | Result |
---|---|---|
1 | ConsInddistrictheating | 400 |
- 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.
See also
- Previous way of presenting energy balances in Stuttgart: consumption, transformations, supply
- About large systems of non-linear equations: BB package in R
Keywords
References
Related files
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