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<article_title>Framework for ecolabeling using discrete
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<journal_title>Proceedings of the 2012 symposium on emerging
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discrete event simulation. Proceedings of the 2012 Symposium on Emerging
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ISBN: 9781618397874</unstructured_citation>
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<citation key="AutoModSimulationssoftware.07.11.2019">
<article_title>AutoMod simulationssoftware - simulating
reality</article_title>
<author>AutoMod Simulationssoftware</author>
<unstructured_citation>AutoMod Simulationssoftware.
(21.03.2024). AutoMod simulationssoftware - simulating reality.
https://automod.de/</unstructured_citation>
</citation>
<citation key="Binderbauer.2022">
<article_title>Synthetic load profile generation for
production chains in energy intensive industrial subsectors via a
bottom-up approach</article_title>
<author>Binderbauer</author>
<journal_title>Journal of Cleaner Production</journal_title>
<volume>331</volume>
<doi>10.1016/j.jclepro.2021.130024</doi>
<cYear>2022</cYear>
<unstructured_citation>Binderbauer, P. J., Kienberger, T.,
&amp; Staubmann, T. (2022). Synthetic load profile generation for
production chains in energy intensive industrial subsectors via a
bottom-up approach. Journal of Cleaner Production, 331, 1–14.
https://doi.org/10.1016/j.jclepro.2021.130024</unstructured_citation>
</citation>
<citation key="Bomann.2015">
<article_title>The shape of future electricity demand:
Exploring load curves in 2050s germany and britain</article_title>
<author>Boßmann</author>
<journal_title>Energy</journal_title>
<volume>90</volume>
<doi>10.1016/j.energy.2015.06.082</doi>
<cYear>2015</cYear>
<unstructured_citation>Boßmann, T., &amp; Staffell, I.
(2015). The shape of future electricity demand: Exploring load curves in
2050s germany and britain. Energy, 90, 1317–1333.
https://doi.org/10.1016/j.energy.2015.06.082</unstructured_citation>
</citation>
<citation key="Borshchev.2004">
<article_title>From system dynamics and discrete event to
practical agent based modeling: Reasons, techniques,
tools</article_title>
<author>Borshchev</author>
<journal_title>International conference of the system
dynamics society.</journal_title>
<cYear>2004</cYear>
<unstructured_citation>Borshchev, A., &amp; Filippov, A.
(2004). From system dynamics and discrete event to practical agent based
modeling: Reasons, techniques, tools. International Conference of the
System Dynamics Society.</unstructured_citation>
</citation>
<citation key="Kohl.2014">
<article_title>Discrete event simulation of individual
energy consumption for product-varieties</article_title>
<author>Kohl</author>
<journal_title>Procedia CIRP</journal_title>
<volume>17</volume>
<doi>10.1016/j.procir.2014.01.088</doi>
<cYear>2014</cYear>
<unstructured_citation>Kohl, J., Spreng, S., &amp; Franke,
J. (2014). Discrete event simulation of individual energy consumption
for product-varieties. Procedia CIRP, 17, 517–522.
https://doi.org/10.1016/j.procir.2014.01.088</unstructured_citation>
</citation>
<citation key="LannerGroupLimited.19.03.2024">
<article_title>WITNESS simulation modeling
software</article_title>
<unstructured_citation>Lanner Group Limited (Ed.).
(19.03.2024). WITNESS simulation modeling software.
https://www.lanner.com/en-gb/technology/witness-simulation-software.html</unstructured_citation>
</citation>
<citation key="LLC.19.03.2024">
<article_title>Manufacturing simulation and scheduling
software | simio</article_title>
<unstructured_citation>Simio LLC (Ed.). (19.03.2024).
Manufacturing simulation and scheduling software | simio.
https://www.simio.com/applications/manufacturing-simulation-software/</unstructured_citation>
</citation>
<citation key="Omoyele.2024">
<article_title>Increasing the resolution of solar and wind
time series for energy system modeling: A review</article_title>
<author>Omoyele</author>
<journal_title>Renewable and Sustainable Energy
Reviews</journal_title>
<volume>189</volume>
<doi>10.1016/j.rser.2023.113792</doi>
<cYear>2024</cYear>
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M., Larrañeta, M., Weinand, J. M., Linßen, J., &amp; Stolten, D. (2024).
Increasing the resolution of solar and wind time series for energy
system modeling: A review. Renewable and Sustainable Energy Reviews,
189, 113792.
https://doi.org/10.1016/j.rser.2023.113792</unstructured_citation>
</citation>
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<article_title>Petri nets</article_title>
<author>Peterson</author>
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<volume>9</volume>
<doi>10.1145/356698.356702</doi>
<issn>0360-0300</issn>
<cYear>1977</cYear>
<unstructured_citation>Peterson, J. L. (1977). Petri nets.
ACM Computing Surveys, 9(3), 223–252.
https://doi.org/10.1145/356698.356702</unstructured_citation>
</citation>
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<article_title>Time series of useful energy consumption
patterns for energy system modeling</article_title>
<author>Priesmann</author>
<journal_title>Scientific data</journal_title>
<issue>1</issue>
<volume>8</volume>
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<cYear>2021</cYear>
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148. https://doi.org/10.1038/s41597-021-00907-w</unstructured_citation>
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https://doi.org/10.1016/j.rser.2020.109917</unstructured_citation>
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<article_title>Simulating the energy consumption of machines
in compound feed manufacturing for investment decisions</article_title>
<author>Rippel</author>
<journal_title>Simulation in produktion und logistik
2017</journal_title>
<cYear>2017</cYear>
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M., Decker, A., Freitag, M., &amp; Thoben, K.-D. (2017). Simulating the
energy consumption of machines in compound feed manufacturing for
investment decisions. In S. Wenzel &amp; T. Peter (Eds.), Simulation in
produktion und logistik 2017 (pp. 79–88). kassel university
press.</unstructured_citation>
</citation>
<citation key="Rippel.25.03.2024">
<article_title>M-ProPlAn: E-mail</article_title>
<author>Rippel</author>
<unstructured_citation>Rippel, D. (25.03.2024). M-ProPlAn:
E-mail (J. Belina, Ed.).</unstructured_citation>
</citation>
<citation key="RockwellAutomation.17.02.2024">
<article_title>Arena simulation software | arena simulation
software</article_title>
<unstructured_citation>Rockwell Automation (Ed.).
(17.02.2024). Arena simulation software | arena simulation software.
https://www.rockwellautomation.com/de-de/products/software/arena-simulation.html</unstructured_citation>
</citation>
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<volume_title>SIMTER: A joint simulation tool for production
development</volume_title>
<author>Lind</author>
<cYear>2009</cYear>
<unstructured_citation>Lind, S., Krassi, B., Johansson, B.,
Viitaniemi, J., Heilala, J., Stahre, J., Vatanen, S., Fasth, Å., &amp;
Berlin, C. (2009). SIMTER: A joint simulation tool for production
development. VTT Technical Research Centre of
Finland.</unstructured_citation>
</citation>
<citation key="SiemensDigitalIndustriesSoftware.15.03.2024">
<article_title>Plant simulation software | siemens
software</article_title>
<unstructured_citation>Siemens Digital Industries Software
(Ed.). (15.03.2024). Plant simulation software | siemens software.
https://plm.sw.siemens.com/en-US/tecnomatix/products/plant-simulation-software/</unstructured_citation>
</citation>
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umplanungsprojekten zur energieeffizienzsteigerung in
fabriken</article_title>
<author>Stoldt</author>
<cYear>2019</cYear>
<unstructured_citation>Stoldt, J. (2019).
Gestaltungsmethodik für simulationsstudien in umplanungsprojekten zur
energieeffizienzsteigerung in fabriken [PhD thesis, Technische
Universität Chemnit].
https://nbn-resolving.org/urn:nbn:de:bsz:ch1-qucosa2-343579</unstructured_citation>
</citation>
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<article_title>A criteria-based database for research and
applications of energy-oriented simulation in production and
logistics</article_title>
<author>Stoldt</author>
<journal_title>Simulation in produktion und logistik
2021</journal_title>
<isbn>978-3-73697-479-1</isbn>
<cYear>2021</cYear>
<unstructured_citation>Stoldt, J., Prell, B., Rabe, M.,
Wenzel, S., &amp; Thiede, S. (2021). A criteria-based database for
research and applications of energy-oriented simulation in production
and logistics. In J. Franke &amp; P. Schuderer (Eds.), Simulation in
produktion und logistik 2021 (pp. 93–102). Cuvillier Verlag.
ISBN: 978-3-73697-479-1</unstructured_citation>
</citation>
<citation key="TheAnyLogicCompany.19.03.2024">
<article_title>AnyLogic: Simulation modeling software tools
&amp; solutions for business</article_title>
<unstructured_citation>The AnyLogic Company (Ed.).
(19.03.2024). AnyLogic: Simulation modeling software tools &amp;
solutions for business.
https://www.anylogic.com/</unstructured_citation>
</citation>
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<article_title>MATLAB</article_title>
<author>The MathWorks, Inc.</author>
<unstructured_citation>The MathWorks, Inc. (21.03.2024).
MATLAB.
https://de.mathworks.com/products/matlab.html</unstructured_citation>
</citation>
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<volume_title>Energy efficiency in manufacturing
systems</volume_title>
<author>Thiede</author>
<isbn>9783642259135</isbn>
<cYear>2012</cYear>
<unstructured_citation>Thiede, S. (2012). Energy efficiency
in manufacturing systems. Springer.
ISBN: 9783642259135</unstructured_citation>
</citation>
<citation key="VolkerWohlgemuth.20.03.2024">
<article_title>Software milan: E-mail</article_title>
<author>Wohlgemuth</author>
<unstructured_citation>Wohlgemuth, V. (20.03.2024). Software
milan: E-mail (J. Belina, Ed.).</unstructured_citation>
</citation>
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<article_title>Combining discrete event simulation and
material flow analysis in a component-based approach to industrial
environmental protection</article_title>
<author>Wohlgemuth</author>
<journal_title>Environmental Modelling &amp;
Software</journal_title>
<issue>11</issue>
<volume>21</volume>
<doi>10.1016/j.envsoft.2006.05.015</doi>
<cYear>2006</cYear>
<unstructured_citation>Wohlgemuth, V., Page, B., &amp;
Kreutzer, W. (2006). Combining discrete event simulation and material
flow analysis in a component-based approach to industrial environmental
protection. Environmental Modelling &amp; Software, 21(11), 1607–1617.
https://doi.org/10.1016/j.envsoft.2006.05.015</unstructured_citation>
</citation>
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