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Harold Krikke

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Hans Ronald "Harold" Krikke (born 1967) is a widely recognized scientist[1] in Closed Loop Supply Chains.[2]

Education and career

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He studied Industrial Engineering and Management at University of Twente in Enschede.[citation needed] He completed his Ph.D. in 1998 in the field of reverse logistics and subsequently he worked as an assistant professor at Erasmus University Rotterdam and as a business consultant at Tebodin.[citation needed]

Between 2001 and 2005 Krikke worked as a project manager at CentER Applied Research and in 2005 he was appointed associate professor at the Tilburg School of Economics and Business.[3] In April 2008 Krikke became the professor of Closed Loop Supply Chains at Open University Netherlands.[4][5]

In 2010, he became the Durabilit Professor of Closed Loop Supply Chains at the Open University Netherlands.[6]

Expertise

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Since 1994 Krikke has conducted research in the field of reverse logistics and specifically the Closed Loop Supply Chain and its relationship with Purchasing, Product Life Cycle Management and Sales & Marketing.[7]

Closed loop supply chains

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A Closed Loop Supply Chain[2] recovers and reuses all the materials that are involved in the production process, including the final product itself along with its packaging. Steps toward achieving that state involve reducing material flows, thereby reducing and limiting carbon footprint, CO
2
emissions and waste. To manage a closed-loop supply chain optimally, three things are vital. First, match the type of return with the appropriate supply chain. Second, adopt modular reuse, to recover maximal value. Third, the value of re-use data may in some cases be higher than the value of the returns.[clarification needed]

According to the closed loop supply chain methodology a product first needs to enter into the re-use loop, then into the remanufacturing loop, and finally in the recycling loop.[8]

Research topics

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Resource scarcity

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Krikke warns that natural resource scarcity is becoming a serious issue. He concludes that there is a lack of data on some resources, but that it is clear that there are less and less materials, energy and water available. Mining companies invest in increasingly remote and politically dangerous areas or in the deep sea to reach ever scarcer reserves. As an example Krikke mentions a large French car manufacturer that was notified by its sustainability officer that most of their factories are located in regions where water is scarce. Because of the high water bills their cars could become unaffordable. Krikke concludes that scarcity of resources have an enormous long term negative environmental and economical impact. A closed loop supply chain and re-using products thus becomes more relevant.[9]

Impact of supply chain on carbon footprint

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Krikke studied the impact of a copier manufacturer's supply chain on the total carbon footprint of the product[10] and in the handling of end-of-life vehicles. He found that customers knowledge of a product's carbon footprint can affect purchasing decisions, for example new versus second hand. Companies do not routinely calculate carbon footprint data, and often neglect the supply chain portion of that footprint. Outsourcing complicates this calculation.

When looking at refrigerators[11] and cars, 80-90% of CO2 emissions are emitted during the user phase. By contrast, personal computers emit 80-90% of their CO2 emissions during production and distribution. For network switches, routers and cell-phones, 50% of CO2 output occurs in the supply chain.[12] To increase knowledge and awareness of the positive impact of reuse Krikke has developed the "greener network calculator", a unique CO2 calculator that gives a clear overview and insight into how much CO2 emissions are reduced when buying and using second hand/used hardware rather than new hardware.[13]

Principal publications

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References

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  1. ^ "Krikke, International Expert in Closed Loop Supply Chains". Archived from the original on 2011-01-26. Retrieved 2012-02-28.
  2. ^ a b Krikke, H. R.; Pappis, Costas P.; Tsoulfas, Giannis T.; Bloemhof-Ruwaard, Jacqueline M. (October 2001). "Design Principles for Closed Loop Supply Chains". Erasmus Research Institute of Management Research Series: Research in Management. SSRN 370922. ERS-2001-62-LIS. Retrieved 2012-09-19.
  3. ^ "Experts - Tilburg University". Tilburguniversity.edu. Retrieved 2013-03-13.
  4. ^ "Open University (English)". Ou.nl. Retrieved 2012-09-19.
  5. ^ "Reverse Logistics Association and Prof.Dr.Ir Krikke". Rltshows.com. Retrieved 2012-09-19.
  6. ^ "Professor Dr.Ir Krikke, Open University Netherlands". Ou.nl. Archived from the original on 2012-09-08. Retrieved 2012-09-19.
  7. ^ "Expertise Professor Dr.Ir Krikke". Tilburguniversity.edu. Retrieved 2012-09-19.
  8. ^ Krikke, H.R. Blanc, H.M. le Velde, S.L. van de (January 2004). "Design of Closed-Loop Supply Chains, Erasmus University Rotterdam The Netherlands". California Management Review: 23–39. doi:10.2307/41166208. JSTOR 41166208. S2CID 154940233. Retrieved 2012-09-19.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  9. ^ "Returns a hidden resource - Prof. dr ir H.R. Krikke - Q4 2011 —". Durabilit.eu. Retrieved 2013-03-13.
  10. ^ Krikke, Harold (2011). "Impact of closed-loop network configurations on carbon footprints: A case study in copiers". Resources, Conservation and Recycling. 55 (12): 1196–1205. Bibcode:2011RCR....55.1196K. doi:10.1016/j.resconrec.2011.07.001.
  11. ^ INSEAD, A Production and Return Network for Refrigerators
  12. ^ "How to reduce your carbon footprint by Prof.Dr.Ir Krikke". Archived from the original on 2014-08-19. Retrieved 2012-02-28.
  13. ^ "News and Analysis: Recent report on international imports and exports sheds new light on source of carbon emissions". Carbon Management. 2 (3): 219–221. June 2011. doi:10.4155/cmt.11.29. S2CID 220269740. Archived from the original on 2013-01-24. Retrieved 2012-02-28.
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