Industrial sector - TIAM-UCL: Difference between revisions

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{{ModelDocumentationTemplate
{{ModelDocumentationTemplate
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|IsDocumentationOf=TIAM-UCL
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|DocumentationCategory=Industrial sector
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== Energy-service demands ==
== Energy-service demands ==


The industrial sector is characterized by 6 energy-services, each representing either the physical output of the industry or the total energy requirement ('''Table 3.5.1)'''. There are also one demand for ?Other non-specified energy consumption (ONO)?, one for ?Industrial and Other non-energy uses (NEO)? and one for ?Very Other industries (I00)?, which are considered as a generic demands. The last one (I00) has been added for minor calibration purposes and is generally not used. There are different technologies and fuels modelled for supplying steam, process heat, machine drives and electro-chemical process for each energy-service demand in the Base-year templates.  
The industrial sector is characterized by 6 demand segments, each representing either the physical output of the industry or the total energy requirement ('''Table 3.5.1)'''. There are also one demand for 'Other non-specified energy consumption (ONO)', one for 'Industrial and Other non-energy uses (NEO)' and one for 'Other Industrial consumption (I0I)', which are considered as a generic demands. The last one (I0I) has been added for minor calibration purposes and is generally not used. There are different technologies and fuels modelled for supplying steam, process heat, machine drives and electro-chemical process for each energy-service demand in the Base-year templates.  


'''Table 3.5.1: Industry sector energy-services'''
'''Table 3.5.1: Industry sector energy-services'''


{| class = "wikitable"
{| class="wikitable"
|width="100%"|'''Energy-service sectors'''
| Code || Energy-service demand || Unit
|-
|-
|Other Industrial consumption
| I0I || Other Industrial consumption || PJ
|-
|-
|Chemicals
| ICH || Chemicals || PJ
|-
|-
|Iron and Steel
| IIS || Iron and Steel || Mt
|-
|-
|Pulp and Paper
| ILP || Pulp and Paper || Mt
|-
|-
|Non-ferrous metals
| INF || Non-ferrous metals || Mt
|-
|-
|Non Metals
| INM || Non Metals || PJ
|-
|-
|Other Industries
| NEU || Other Industries || PJ
|-
|-
|Industrial and Other Non Energy Uses
| NEO || Industrial and Other Non Energy Uses || PJ
|-
|-
|Other non-specified consumption
| ONO || Other non-specified consumption || PJ
|}
|}


Energy service demands are projected to 2100 using general economic and demographic drivers (population, GDP, GDP per capita and sectoral output). . To develop projections of future energy service demands, estimates of drivers are used in conjunction with user assumptions on the topic of service demand sensitivity to these drivers. Projected industry sector energy-service demands at a global level are presented in '''Figure 3.5.1'''. Similar tables have been generated for each region. Industry sector has relatively high growth in China as compared to other regions.
 
 
Energy service demands are projected to 2100 using [http://themasites.pbl.nl/models/advance/index.php/Energy_demand_-_TIAM-UCL general economic and demographic drivers] population, GDP, GDP per capita and sectoral output). To develop projections of future energy service demands, estimates of drivers are used in conjunction with user assumptions on the topic of service demand sensitivity to these drivers. Projected industry sector energy-service demands at a global level are presented in '''Figure 3.5.1'''. Similar tables have been generated for each region. Industry sector has relatively high growth in China as compared to other regions.


[[File:35815693.png]]
[[File:35815693.png]]
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'''Figure 3.5.1: projected industry sector energy-service demands at global level'''
'''Figure 3.5.1: projected industry sector energy-service demands at global level'''


There are hundreds of technologies modelled in the industry sector to meet the energy-service demands. For each energy-services of each industry, a number of existing technologies are in competition to satisfy energy-service demand. They are characterized by an efficiency, an annual utilization factor, a lifetime, operation costs, and six seasonal share coefficients (summer-day, summer-night, intermediary day, intermediary-night, winter-day, winter-night). The technologies included in the Base-Year template are the existing technologies to meet the base-year demand and the residual capacities can be used till end of their life period. No new investments are allowed in the existing technologies in any sector. . These technologies progressively replace the existing ones and they are characterized by the same type of parameters such as efficiency, and investment cost. Regional specific hurdle rates are applies to industry sector new technologies as shown in '''Figure 3.5.2'''. It varies from 10% (developed countries) to 20% (least developed countries).
There are hundreds of technologies modelled in the industry sector to meet the energy-service demands. For each energy-services of each industry, a number of existing technologies are in competition to satisfy energy-service demand. They are characterized by an efficiency, an annual utilization factor, a lifetime, operation costs, and six seasonal share coefficients (summer-day, summer-night, intermediary day, intermediary-night, winter-day, winter-night). The technologies included in the Base-Year template are the existing technologies to meet the base-year demand and the residual capacities can be used till end of their life period. No new investments are allowed in the existing technologies in any sector. . These technologies progressively replace the existing ones and they are characterized by the same type of parameters such as efficiency, and investment cost. Regional specific [http://themasites.pbl.nl/models/advance/index.php/Energy_-_TIAM-UCL hurdle rates] are applies to industry sector new technologies as shown in '''Figure 3.5.2'''. It varies from 10% (developed countries) to 20% (least developed countries).


[[File:35815694.png]]
[[File:35815694.png]]
'''Figure 3.5.2: Regional specific hurdle rate for industry sector technologies'''
'''Figure 3.5.2: Regional specific hurdle rate for industry sector technologies'''

Latest revision as of 19:14, 14 December 2016

Model Documentation - TIAM-UCL

Corresponding documentation
Previous versions
Model information
Model link
Institution University College London (UCL), UK, https://www.ucl.ac.uk.
Solution concept Partial equilibrium (price elastic demand)
Solution method Linear optimisation
Anticipation Perfect Foresight

(Stochastic and myopic runs are also possible)

Energy-service demands

The industrial sector is characterized by 6 demand segments, each representing either the physical output of the industry or the total energy requirement (Table 3.5.1). There are also one demand for 'Other non-specified energy consumption (ONO)', one for 'Industrial and Other non-energy uses (NEO)' and one for 'Other Industrial consumption (I0I)', which are considered as a generic demands. The last one (I0I) has been added for minor calibration purposes and is generally not used. There are different technologies and fuels modelled for supplying steam, process heat, machine drives and electro-chemical process for each energy-service demand in the Base-year templates.

Table 3.5.1: Industry sector energy-services

Code Energy-service demand Unit
I0I Other Industrial consumption PJ
ICH Chemicals PJ
IIS Iron and Steel Mt
ILP Pulp and Paper Mt
INF Non-ferrous metals Mt
INM Non Metals PJ
NEU Other Industries PJ
NEO Industrial and Other Non Energy Uses PJ
ONO Other non-specified consumption PJ


Energy service demands are projected to 2100 using general economic and demographic drivers population, GDP, GDP per capita and sectoral output). To develop projections of future energy service demands, estimates of drivers are used in conjunction with user assumptions on the topic of service demand sensitivity to these drivers. Projected industry sector energy-service demands at a global level are presented in Figure 3.5.1. Similar tables have been generated for each region. Industry sector has relatively high growth in China as compared to other regions.

35815693.png

Figure 3.5.1: projected industry sector energy-service demands at global level

There are hundreds of technologies modelled in the industry sector to meet the energy-service demands. For each energy-services of each industry, a number of existing technologies are in competition to satisfy energy-service demand. They are characterized by an efficiency, an annual utilization factor, a lifetime, operation costs, and six seasonal share coefficients (summer-day, summer-night, intermediary day, intermediary-night, winter-day, winter-night). The technologies included in the Base-Year template are the existing technologies to meet the base-year demand and the residual capacities can be used till end of their life period. No new investments are allowed in the existing technologies in any sector. . These technologies progressively replace the existing ones and they are characterized by the same type of parameters such as efficiency, and investment cost. Regional specific hurdle rates are applies to industry sector new technologies as shown in Figure 3.5.2. It varies from 10% (developed countries) to 20% (least developed countries).

35815694.png

Figure 3.5.2: Regional specific hurdle rate for industry sector technologies