H. Wang, A. Mustaffar, A. N. Phan, V. Zivkovic, D. Reay et al., A review of process intensification applied to solids handling, Chemical Engineering and Processing: Process Intensification, vol.118, pp.78-107, 2017.

, VDI Standard 4521: Inventive Problem Solving with TRIZ. Fundamentals and Definitions, 2016.

D. Casner, P. Livotov, K. Masudah, and P. Da-silva, TRIZ-based approach for process intensification and problem solving in process engineering: concepts and research agenda, Advances and Impacts of the Theory of Inventive Problem Solving. The TRIZ Methodology, Tools and Case Studies, 2018.

Z. Hua, J. Yang, S. Coulibaly, and B. Zhang, Integration TRIZ with problem-solving tools: a literature review from 1995 to, International Journal of Business Innovation and Research, pp.111-128, 2006.

I. M. Ilevbare, D. Probert, and R. Phaal, A review of TRIZ, and its benefits and challenges in practice, Technovation, vol.33, pp.30-37, 2013.

L. Chechurin and Y. Borgianni, Understanding TRIZ through the review of top cited publications, Computers in Industry, vol.82, pp.119-134, 2016.

D. Casner and P. Livotov, Advanced innovation design approach for process engineering, Proceedings of the 21st Int. Conf. on Engineering Design (ICED 17), vol.4, pp.653-662, 2017.

C. Pokhrel, C. Cruz, Y. Ramirez, and A. Kraslawski, Adaptation of TRIZ contradiction matrix for solving problems in process engineering, Chemical Engineering Research and Design, vol.103, pp.3-10, 2015.

P. Livotov and V. Petrov, TRIZ Innovation Technology. Product Development and Inventive Problem Solving. Handbook. 284 pages, Innovator (06) 01, 2013.

J. Kim, J. Kim, Y. Lee, W. Lim, and I. Moon, Application of TRIZ creativity intensification approach to chemical process safety, Journal of Loss Prevention in the Process Industries, vol.22, pp.1039-1043, 2009.

A. Rahim, Z. Lim-sing, I. Sheng, and A. B. Nooh, TRIZ methodology for applied chemical engineering: A case study of new product development, Chemical Engineering Research and Design, vol.103, pp.11-24, 2015.

O. Abramov, S. Kogan, L. Mitnik-gankin, I. Sigalovsky, and A. Smirnov, TRIZ-based approach for accelerating innovation in chemical engineering, Chemical Engineering Research and Design, vol.103, pp.25-31, 2015.

R. Srinivasan and A. Kraslawski, Application of the TRIZ creativity enhancement approach to design of inherently safer chemical processes, Chemical Engineering and Processing: Process Intensification, vol.45, pp.507-514, 2006.

G. Cortes-robles, S. Negny, and J. M. Le-lann, Case-based reasoning and TRIZ: A coupling for innovative conception in Chemical Engineering, Chemical Engineering and Processing: Process Intensification, vol.48, pp.239-249, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00451314

P. Livotov, Advanced Innovation Design Approach: towards Integration of TRIZ Methodology into Innovation Design Process, Journal of the European TRIZ Association -INNOVATOR, issue.04, pp.1-3, 2017.

J. J. Shah, N. Vargas-hernandez, and S. M. Smith, Metrics for measuring ideation effectiveness, Design Studies, vol.24, issue.2, 2003.

P. Livotov, A. P. Chandra-sekaran, R. Law, . Mas'udah, and D. Reay, Systematic Innovation in Process Engineering: Linking TRIZ and Process Intensification, pp.978-981, 2018.

B. Grierson, I. Fraser, A. Morrison, and G. Chisholm, 40 Principles -Chemical Illustrations, The Triz Journal, 2003.

J. Hipple, 40 inventive principles with examples for chemical engineering, TRIZ Journal Homepage, 2005.

I. Belski, P. Livotov, and O. Mayer, Eight Fields of MATCEMIB Help Students to Generate More Ideas, Proc. CIRP, vol.39, 2016.