Dr.-Ing. Christian Bramsiepe

Module Based Plant Design

Dissertation

• C. Bramsiepe
  Beitrag zur Modellierung diffuser Emissionen aus flüssig beaufschlagten Flanschverbindungen
  TU Dortmund, 2010, Verlag Dr. Hut, München, ISBN 978-3-86853-554-9

Paper

• Post, C., Wentingmann, N., Bramsiepe, C., Schembecker, G.
  Using design spaces for more accurate cost estimation during early engineering phases
  Chemical Engineering Research and Design 153 (2020) 153 592-602, doi.org/10.1016/j.cherd.2019.11.011
   
• M.Eilermann, C.Post, H.Radatz, C.Bramsiepe, G.Schembecker
  A general approach to module-based plant design 
  Chemical Engineering Research and Design137(2018) 125-140 (doi.org/10.1016/j.cherd.2018.06.039)
   
• M. Eilermann, C. Post, D. Schwarz, S. Leufke, G. Schembecker, C. Bramsiepe
  Generation of an equipment module database for heat exchangers by cluster analysis of industrial application
  Chemical Engineering Science 167 (2017) 278-287 (doi.org/10.1016/j.ces.2017.03.064)
   
• C. Dowidat, M. Kalliski, G. Schembecker, C. Bramsiepe
  Synthesis of batch heat exchanger networks utilizing a match ranking matrix
  Applied Thermal Engineering 100 (2016) 78–83 (doi.org/10.1016/j.applthermaleng.2016.01.085)
   
• T. Seifert, J.M.Elischewski, S. Sievers, F. Stenger, B.Hamers, M. Priske, M. Becker, R. Franke, G.Schembecker, C.Bramsiepe
  Multivariate risk analysis of an intensified modular hydroformylation process
  Chemical Engineering and Processing: Process Intensification 95 (2015), 124-134 (doi.org/10.1016/j.cep.2015.05.010)
   
• T. Seifert, H. Schreider, S. Sievers, G. Schembecker, and C. Bramsiepe
  Real Option Framework for Equipment Wise Expansion of Modular Plants applied to the design of a continuous multiproduct plant
  Chemical Engineering Research and Design 93 (2014) 511–521 (doi.org/10.1016/j.cherd.2014.07.019)
   
• T. Seifert, P. Fakner, S. Sievers, F. Stenger, B. Hamers, M. Priske, M. Becker, R. Franke, G. Schembecker, and C. Bramsiepe
  Intensified hydroformylation as an example for flexible intermediates production
  Chemical Engineering and Processing: Process Intensification (2014) 85 (2014) 1–9 (doi.org/10.1016/j.cep.2014.07.003)
   
• L. Pansegrau, G. Schembecker, and C. Bramsiepe
  A Model to Characterize and Predict Fugitive Emissions from Flange Joints
  Chemical Engineering and Technology 37 (2014) 1205-1210 (doi.org/10.1002/ceat.201300753)
   
• T. Seifert, A. Lesniak, S. Sievers, G. Schembecker, and C. Bramsiepe
  Capacity Flexibility of Chemical Plants
  Chemical Engineering and Technology 37 (2014) 332-342 (doi.org/10.1002/ceat.201300635)
• N. Krasberg, L. Hohmann, T. Bieringer, C. Bramsiepe, and N. Kockmann
  Selection of Technical Reactor Equipment for Modular, Continuous Small-Scale Plants
  Processes 2 (2014) 265-292 (doi.org/10.3390/pr2010265)
   
• C. Bramsiepe, N. Krasberg, C. Fleischer, L. Hohmann, N. Kockmann, and G. Schembecker
  Information technologies for innovative process and plant design
  Chemie-Ingenieur-Technik 86 (2014) 966-981 (doi.org/10.1002/cite.201400029)

• C. Dowidat, K. Ulonska, C. Bramsiepe, and G. Schembecker
  Heat integration in batch processes including heat streams with time dependent temperature progression;
  Applied Thermal Engineering  70 (2014) 321-327 (doi.org/10.1016/j.applthermaleng.2014.05.022)
   
• T. Seifert, S. Sievers, C. Bramsiepe, and G. Schembecker
  Small scale, modular and continuous: A new approach in plant design
  Chemical Engineering and Processing: Process Intensification 52 (2012) 140-150 (doi.org/10.1016/j.cep.2011.10.007)
   
• C. Bramsiepe, S. Sievers, T. Seifert, G.D. Stefanidis, D.G. Vlachos, H. Schnitzer, B. Muster, C. Brunner, J.P.M. Sanders, M.E. Bruins, and G. Schembecker
  Low-cost small scale processing technologies for production applications in various environments—Mass produced factories
  Chemical Engineering and Processing: Process Intensification 51 (2012) 32-52 (doi.org/10.1016/j.cep.2011.08.005)
   
• C. Bramsiepe and G. Schembecker
  Die 50 %-Idee: Modularisierung im Planungsprozess
  Chemie-Ingenieur-Technik 84 (2012) 581-587 (doi.org/10.1002/cite.201100250)
   
• C. Bramsiepe, L. Pansegrau, and G. Schembecker
  Beitrag zur Modellierung diffuser Emissionen aus flüssig beaufschlagten Flanschverbindungen
  In A. Riedl (Hrsg.) Die neue VDI 2290 und ihre Grenzen (2011) ISBN: 978-3-8027-2211-0
   
• C. Bramsiepe, J. Kussi, and G. Schembecker
  Projektierung von Chemieanlagen: Mit der 50%-Idee vom Produkt zur Produktionsanlage
  Chemie Technik 40 (2011) 50-52
   
• L. Pansegrau, C. Bramsiepe, and G. Schembecker
  Diffuse Emissionen von flüssig beaufschlagten Flanschverbindungen. Ein Vergleich von Labor- und Betriebsmessungen.
  Technische Überwachung 51 (2010) 29-33
   
• C. Bramsiepe, L. Pansegrau, and G. Schembecker
  A model to predict fugitive VOC emissions from liquid charged flange joints with graphite gaskets
  Chemical Engineering Journal 159 (2010) 11-16 (doi.org/10.1016/j.cej.2010.02.014)
   
• C. Bramsiepe and G. Schembecker
  Fugitive emissions from liquid charged flange points - a comparison of laboratory and field data
  Environmental Science and Technology 43 (2009) 4498-4502 (doi.org/10.1021/es9010527)
   
• C. Bramsiepe, H. Schmidt-Traub, J. Meisel, and G. Schembecker
  Emissionen an flüssig beaufschlagten Flanschverbindungen - Neue Ergebnisse und Vorstellung eines Berechnungsprogramms
  VDI-Berichte 2035 (2008) 253-256 ISBN 978-3-18-092035-1
   
• R.-H. Klaer, R. Hahn, H. Kockelmann, C. Bramsiepe, G. Schembecker, and H. Schmidt-Traub
  How to avoid emissions? - VOC-Emission of bolted flanges and valves in accordance with government regulations
  Achema Worldwide News; 02/2008

Poster

• C. Bramsiepe, H. Schmidt-Traub, J. Meisel, and G. Schembecker
  „Emissionen an flüssig beaufschlagten Flanschverbindungen - Neue Ergebnisse und Vorstellung eines Berechnungsprogramms"
  VDI/DIN Kolloquium „Emissionsminderung 2008", Nürnberg (2008)