Sustainability integration in a technology readiness assessment framework

In this paper, an approach to systematically include sustainability into the Technology Readiness Levels (TRL) is proposed. The aim is to answer the question "how can sustainability provide systematic guidance in technology development and early product development?". Results from a case study illustrate that the suggested approach can support i) the inclusion of sustainability into the early design stages, when only limited data and information is available; ii) the enhancement of the comprehensiveness of sustainability and ease of use in the day-to-day engineering working environment; and iii) simplified sustainability assessments without being too simplistic and/or reducing the sustainability scope. The proposed approach is being co-developed in collaboration with a case company, and tests on an actual technology development project are planned. The next steps are related to the application of the proposed approach in other companies to test its robustness and enhance its generalization for application in diverse contexts.

[1]  F. Chapin,et al.  Planetary boundaries: Exploring the safe operating space for humanity , 2009 .

[2]  Rainer Stark,et al.  Enabling Product Development Engineers to Select and Combine Methods for Sustainable Design , 2014 .

[3]  K. Hambridge Action research. , 2000, Professional nurse.

[4]  Rupert J. Baumgartner,et al.  Improving sustainability performance in early phases of product design: A checklist for sustainable product development tested in the automotive industry , 2017 .

[5]  T. Larsson,et al.  Science in support of systematic leadership towards sustainability , 2017 .

[6]  Sangwon Suh,et al.  The Role of Scale and Technology Maturity in Life Cycle Assessment of Emerging Technologies: A Case Study on Carbon Nanotubes , 2015 .

[7]  G. Broman,et al.  A strategic approach to social sustainability - Part 1: exploring the social system , 2017 .

[8]  Tim C. McAloone,et al.  Sustainable product development through a life-cycle approach to product and service creation: An exploration of the extended responsibilities and possibilities for product developers , 2005 .

[9]  Yuya Kajikawa,et al.  Multi-level perspectives with technology readiness measures for aviation innovation , 2012, Sustainability Science.

[10]  Sophie Hallstedt,et al.  Key elements for implementing a strategic sustainability perspective in the product innovation process , 2013 .

[11]  Roland Leduc,et al.  From a conventional to a sustainable engineering design process: different shades of sustainability , 2012 .

[12]  Hans L Johannesson,et al.  TECHNOLOGY DEVELOPMENT AND NORMATIVE PROCESS MODELS , 2010 .

[13]  Johan Wall,et al.  Introductory Procedure for Sustainability-Driven Design Optimization , 2007 .

[14]  Tim C. McAloone,et al.  Leading product-related environmental performance indicators: a selection guide and database , 2015 .

[15]  G. Broman,et al.  A framework for strategic sustainable development , 2017 .

[16]  Ben J Hicks,et al.  A methodology for evaluating technology readiness during product development , 2009 .

[17]  Sophie Hallstedt,et al.  Assessing Sustainability and Value of Manufacturing Processes:: A case in the aerospace industry , 2015 .

[18]  Sergio Terzi,et al.  A state-of-the-art of industrial sustainability: definitions, tools and metrics , 2009 .

[19]  John C. Mankins,et al.  Technology Readiness Levels-A White Paper , 1995 .

[20]  Nadia Bhuiyan,et al.  A proposed approach to improve current sustainable product development , 2016 .

[21]  Yasmeen Jaghbeer,et al.  Roadmap towards a Lean and Sustainable Production for Medium Sized Manufacturers: A Case Study , 2016 .

[22]  Sophie Hallstedt,et al.  Material criticality assessment in early phases of sustainable product development , 2017 .

[23]  Sophie Hallstedt,et al.  MATERIAL CRITICALITY METHOD - PRODUCT VULNERABILITY FROM A SUSTAINABLE BUSINESS PERSPECTIVE , 2016 .

[24]  Joe Uzdzinski,et al.  Wholistic Sustainment Maturity: The Extension of System Readiness Methodology across all Phases of the Lifecycle of a Complex System , 2014, CSER.

[25]  David G. Ullman,et al.  The Mechanical Design Process , 1992 .

[26]  Steven D. Eppinger,et al.  Comparing product development processes and managing risk , 2009 .

[27]  Ashutosh Tiwari,et al.  Technology readiness level assessment of composites recycling technologies , 2016 .

[28]  Tim C. McAloone,et al.  Integrating Product and Technology Development: A Proposed Reference Model for Dual Innovation , 2016 .

[29]  John C. Mankins,et al.  Technology readiness assessments: A retrospective , 2009 .

[30]  Sophie Hallstedt,et al.  Sustainability criteria and sustainability compliance index for decision support in product development , 2017 .