https://wiki.openmod-initiative.org/api.php?action=feedcontributions&user=Anne+Senkel&feedformat=atomwiki.openmod-initiative.org - User contributions [en]2024-03-29T01:55:51ZUser contributionsMediaWiki 1.19.7https://wiki.openmod-initiative.org/wiki/TransiEntTransiEnt2018-04-23T15:23:32Z<p>Anne Senkel: </p>
<hr />
<div>{{Model<br />
|Full_Model_Name=TransiEnt Library<br />
|Acronym=TransiEnt<br />
|author_institution=Hamburg University of Technology<br />
|authors=Lisa Andresen, Carsten Bode, Pascal Dubucq, Jan-Peter Heckel, Ricardo Peniche, Anne Senkel, Oliver Schülting<br />
|contact_persons=Carsten Bode, Jan-Peter Heckel, Anne Senkel, Oliver Schülting<br />
|contact_email=transientlibrary@tuhh.de<br />
|website=https://www.tuhh.de/transient-ee/en/<br />
|source_download=https://www.tuhh.de/transient-ee/en/download.html<br />
|logo=LogoHighQuality.png<br />
|text_description=The TransiEnt library is written in the Modelica modeling language and allows simulations of coupled energy networks with high share of renewable energies. The library can be downloaded for free and open source under the Modelica License 2. <br />
<br />
The TransiEnt library contains object oriented components models of all major elements of the enegy infrastructure with its corresponding producers, consumers, grids and storage systems. These components can be used to simulate different scenarios from single power plants starting up to the simulation of primary control in the ENTSO-E grid.<br />
|Primary outputs=Deeper understanding of coupled energy systems and analysis of energy storage options by sector coupling and demand side integration<br />
|Support=transientlibrary@tuhh.de<br />
|Framework=Modelica modeling language<br />
|Source of funding=German Federal Ministry of Economic Affiars and Energy (PTJ 03ET4003)<br />
|Number of developers=8<br />
|Number of users=100<br />
|open_source_licensed=Yes<br />
|model_source_public=Yes<br />
|Link to source=https://www.tuhh.de/transient-ee/en/download.html<br />
|data_availability=some<br />
|open_future=No<br />
|modelling_software=Modelica<br />
|processing_software=Dymola<br />
|Additional software=Visual Studio 2010 / Visual C++ 2010 Express Edition<br />
|GUI=Yes<br />
|model_class=Dynamic system simulation model library<br />
|sectors=electricity, district heating, Gas,<br />
|technologies=Renewables, Conventional Generation, CHP<br />
|Demand sectors=Households, Industry, Commercial sector<br />
|Energy carrier (Gas)=Natural gas, Hydrogen<br />
|Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br />
|Energy carriers (Renewable)=Hydro, Sun, Wind<br />
|Transfer (Electricity)=Distribution, Transmission<br />
|Transfer (Gas)=Distribution, Transmission<br />
|Transfer (Heat)=Distribution<br />
|Storage (Electricity)=Battery, CAES, Chemical, Kinetic, PHS<br />
|Storage (Gas)=Yes<br />
|Storage (Heat)=Yes<br />
|User behaviour=Most consumer models are based on typical profiles and some on underlying pyhsics (e.g. exponential dependency of electric loads to frequency and voltage)<br />
|Market models=Linear step-by-step merit order model included<br />
|Changes in efficiency=Efficiency is based on operating state<br />
|georegions=Hamburg / Germany<br />
|georesolution=Metropolregion Hamburg<br />
|timeresolution=Second<br />
|network_coverage=transmission, distribution, net transfer capacities<br />
|Observation period=Less than one month, Less than one year<br />
|Additional dimensions (Ecological)=CO2 Emissions<br />
|Additional dimensions (Economical)=Total cost of heat and electricity sector<br />
|Additional dimensions (Other)=Control behaviour, e.g. stability of electric grid frequency control<br />
|math_modeltype=Simulation<br />
|math_modeltype_shortdesc=Models in the library are based on differential algebraic equations and are solved using a variable step solver. By using the object oriented Modelica language the library allows an investigation of different timescales and levels of physical detail.<br />
|deterministic=Prediction errors can be introduced by (filtered) white noise timeseries to see changes in control behaviour<br />
|is_suited_for_many_scenarios=No<br />
|number_of_variables=Depending on scenario up to 30 000<br />
|montecarlo=No<br />
|computation_time_minutes=60<br />
|computation_time_comments=The Library can be used to simulate single components as wells as complete systems. The values above apply to a coupled example whith a district heating network and a gas network.<br />
|citation_references=Andresen, Lisa ; Dubucq, Pascal ; Peniche, Ricardo ; Ackermann, Günter ; Kather, Alfons ; Schmitz, Gerhard: Status of the TransiEnt Library: Transient simulation of coupled energy networks with high share of renewable energy. In: Proceedings of the 11th International Modelica Conference. Paris : Modelica Association, 2015, S. 695–705<br />
|citation_doi=10.3384/ecp15118695<br />
|report_references=See: https://www.tuhh.de/transient-ee/en/publications.html<br />
for a complete list<br />
|example_research_questions=* How does the possible amount of hydrogen that can be fed into the gas distribution grid depend on the ambient temperature (considering changes in heating load, gas density and heat of combustion)<br />
<br />
* How does the use of synthetic wind inertia technology impact the electric grid stability<br />
|Integrated models=ClaRa Library<br />
|Model input file format=No<br />
|Model file format=No<br />
|Model output file format=No<br />
}}</div>Anne Senkel