OnSSET

Latest revision as of 15:19, 14 March 2017

Open Source Spatial Electrification Tool

Authors:
Dimitrios Mentis, Mark Howells, Holger Rogner, Alexandros Korkovelos, Christopher Arderne, Oliver Broad, Manuel Welsch, Francesco Fuso Nerini

Contact:
Dimitrios Mentis

OnSSET has been designed for identifying least-cost technology options to electrify areas presently unserved by grid-based electricity and to estimate associated investment needs related to electrification. OnSSET uses energy-related data and information on a geographical basis such as settlement sizes and locations, distances from existing and planned transmission network, power plants, economic activity, local renewable energy flows,road network, nighttime light etc.

Based on Python. Using Python for data processing.

Download

Open Source
MIT license (MIT)

Directly downloadable

No data shipped

Model Scope

Model type and solution approach

Model class
Sectors
Technologies	Renewables, Conventional Generation
Decisions
Regions	Sub-Saharan Africa, developing Asia, Latin America
Geographic Resolution	1 km to 10 km
Time resolution	Multi year
Network coverage

Model type	Optimization

Variables
Computation time	minutes
Objective	Cost minimization
Uncertainty modeling
Suited for many scenarios / monte-carlo	No

References

Scientific references

Mentis, Dimitrios; Welsch, Manuel; Fuso Nerini, Francesco; Broad, Oliver; Howells, Mark; Bazilian, Morgan; Rogner, Holger (December 2015). "A GIS-based approach for electrification planning: a case study on Nigeria". Energy for Sustainable Development. 29: 142–150. doi:10.1016/j.esd.2015.09.007. ISSN 0973-0826.
https://dx.doi.org/10.1016/j.esd.2015.09.007

Reports produced using the model

IEA World Energy Outlook 2014, IEA World Energy Outlook 2015, IEA and World Bank Global Tracking Framework 2015

◀ back to model list

@@ Line 1: / Line 1: @@
 {{Model
-|Full_Model_Name=OpeN Source Spatial Electrification Toolkit
+|Full_Model_Name=Open Source Spatial Electrification Tool
-|Acronym=ONSSET
+|Acronym=OnSSET
 |author_institution=KTH Royal Institute of Technology
-|authors=Dimitrios Mentis, Francesco Fuso Nerini, Oliver Broad, Manuel Welsch, Alexandros Korkovelos, Christopher Arderne, Holger Rogner, Mark Howells
+|authors=Dimitrios Mentis,  Mark Howells, Holger Rogner, Alexandros Korkovelos, Christopher Arderne, Oliver Broad, Manuel Welsch, Francesco Fuso Nerini
 |contact_persons=Dimitrios Mentis
 |contact_email=mentis@kth.se
 |source_download=https://github.com/KTH-dESA/PyOnSSET
-|logo=ONSSET LOGO.png
+|logo=Onsset logo 3.png
-|text_description=ONSSET has been designed for identifying least-cost technology options to electrify areas presently unserved by grid-based electricity and to estimate associated investment needs related to electrification. ONSSET uses energy-related data and information on a geographical basis such as settlement sizes and locations, distances from existing and planned transmission network, power plants, economic activity, local renewable energy flows,road network, nighttime light etc.
+|text_description=OnSSET has been designed for identifying least-cost technology options to electrify areas presently unserved by grid-based electricity and to estimate associated investment needs related to electrification. OnSSET uses energy-related data and information on a geographical basis such as settlement sizes and locations, distances from existing and planned transmission network, power plants, economic activity, local renewable energy flows,road network, nighttime light etc.
 |Primary outputs=Optimal Electrification Mix, Investment Needs
-|Source of funding=SIDA, UNDESA, IEA, ABB, World Bank
+|Source of funding=SIDA, UNDESA, UNDP, IEA, ABB, World Bank
 |open_source_licensed=Yes
 |license=MIT license (MIT)
@@ Line 19: / Line 17: @@
 |open_future=No
 |modelling_software=Python
+|processing_software=Python
 |GUI=No
 |technologies=Renewables, Conventional Generation
@@ Line 27: / Line 26: @@
 |Storage (Heat)=No
 |georegions=Sub-Saharan Africa, developing Asia, Latin America
 |georesolution=1 km to 10 km
 |timeresolution=Multi year
 |math_modeltype=Optimization
@@ Line 33: / Line 32: @@
 |is_suited_for_many_scenarios=No
 |montecarlo=No
-|citation_references=Mentis, D., Welsch, M., Fuso Nerini, F., Broad, O., Howells, M., Bazil-ian, M., Rogner, H., 2015. A GIS-based approach for electrification planning—A case study on Nigeria. Elsevier Energy for Sustainable Development. 29, 142–150.
+|citation_references=Mentis, Dimitrios; Welsch, Manuel; Fuso Nerini, Francesco; Broad, Oliver; Howells, Mark; Bazilian, Morgan; Rogner, Holger (December 2015). "A GIS-based approach for electrification planning: a case study on Nigeria". Energy for Sustainable Development. 29: 142–150. doi:10.1016/j.esd.2015.09.007. ISSN 0973-0826.
-|citation_doi=Mentis, D., Welsch, M., Fuso Nerini, F., Broad, O., Howells, M., Bazil-ian, M., Rogner, H., 2015. A GIS-based approach for electrification planning—A case study on Nigeria. Elsevier Energy for Sustainable Development. 29, 142–150.
+|citation_doi=10.1016/j.esd.2015.09.007
-|report_references=IEA World Energy Outlook 2014
+|report_references=IEA World Energy Outlook 2014, IEA World Energy Outlook 2015, IEA and World Bank Global Tracking Framework 2015
-IEA World Energy Outlook 2015
-IEA and World Bank Global Tracking Framework 2015
 |Model input file format=No
 |Model file format=No
 |Model output file format=No
 }}

Author institution	KTH Royal Institute of Technology +
Authors	Dimitrios Mentis, Mark Howells, Holger Rogner, Alexandros Korkovelos, Christopher Arderne, Oliver Broad, Manuel Welsch, Francesco Fuso Nerini +
Citation doi	10.1016/j.esd.2015.09.007 +
Citation references	Mentis, Dimitrios; Welsch, Manuel; Fuso Ne … Mentis, Dimitrios; Welsch, Manuel; Fuso Nerini, Francesco; Broad, Oliver; Howells, Mark; Bazilian, Morgan; Rogner, Holger (December 2015). "A GIS-based approach for electrification planning: a case study on Nigeria". Energy for Sustainable Development. 29: 142–150. doi:10.1016/j.esd.2015.09.007. ISSN 0973-0826.10.1016/j.esd.2015.09.007. ISSN 0973-0826.
Contact email	mentis@kth.se +
Contact persons	Dimitrios Mentis +
Data availability
Full Model Name	Open Source Spatial Electrification Tool +
Georegions	Sub-Saharan Africa, developing Asia, Latin America +
Georesolution	1 km to 10 km +
Is suited for many scenarios	false +
License	MIT license (MIT) +
Math modeltype	Optimization +
Math objective	Cost minimization +
Model source public	true +
Modelling software	Python +
Open future	false +
Open source licensed	true +
Processing software	Python +
Report references	IEA World Energy Outlook 2014, IEA World Energy Outlook 2015, IEA and World Bank Global Tracking Framework 2015
Source download	https://github.com/KTH-dESA/PyOnSSET +
Technologies	Renewables + and Conventional Generation +
Text description	OnSSET has been designed for identifying l … OnSSET has been designed for identifying least-cost technology options to electrify areas presently unserved by grid-based electricity and to estimate associated investment needs related to electrification. OnSSET uses energy-related data and information on a geographical basis such as settlement sizes and locations, distances from existing and planned transmission network, power plants, economic activity, local renewable energy flows,road network, nighttime light etc.y flows,road network, nighttime light etc.
Timeresolution	Multi year +
Website

About

Help

Search

Navigation

Search

Interaction

Toolbox

Namespaces

Variants

Views

Actions

OnSSET

Latest revision as of 15:19, 14 March 2017

References

Scientific references

Reports produced using the model

Log in / create account

About

Help

Search

Navigation

Search

Interaction

Toolbox

Namespaces

Variants

Views

Actions

OnSSET

Latest revision as of 15:19, 14 March 2017

References

Scientific references

Reports produced using the model