In recent years environmental and sustainability concerns have impacted the global chemical industry and instituted a rush to produce products from renewable raw materials.This dynamic,complex and turbulent organizati...In recent years environmental and sustainability concerns have impacted the global chemical industry and instituted a rush to produce products from renewable raw materials.This dynamic,complex and turbulent organizational scenario,around themes touching on the issue of sustainable development model,was created involving a large number of different actors:chemical/petrochemical industries,agroindustry companies,oil/gas companies,brand owners and end users,biotechnology startups,governments,universities and society.This paper proposed the application of a structured and dynamic method of technological prediction for biopolymers in three levels:systematic monitoring process,relational database and the“alive”Technology Roadmapping visualization tool.The main objective is to identify strategic actions,business models,the latest´s technologies in development,as well as trends in the field of biopolymers in order to support companies on position themselves in this competitive scenario.Furthermore,companies,universities,government agencies and institutions could apply this dynamic and alive methodology to indeed access innovation opportunities,challenges and threats for different industrial segments and to provide dynamic knowledge management collaborating to their strategy including a database crossing for the all organization.展开更多
As a result of Japan raising the alert level at its quake-damaged nuclear plant from four to seven on a seven-point international scale of atomic incidents,which was caused by the 9.0-magnitude earthquake
Purpose–The rapid development of Intelligent and Connected Vehicles(ICVs)has boomed a new round of global technological and industrial revolution in recent decades.The Technology Roadmap of Intelligent and Connected ...Purpose–The rapid development of Intelligent and Connected Vehicles(ICVs)has boomed a new round of global technological and industrial revolution in recent decades.The Technology Roadmap of Intelligent and Connected Vehicles(2020)comprehensively analyzes the technical architecture,research status and future trends of ICVs.The methodology that supports the roadmap should get studied.Design/methodology/approach–This paper interprets the roadmap from the aspects of strategic significance,technical content and characteristics of the roadmap,and evaluates the impact of the roadmap on researchers,industries and international strategies.Findings–The technical architecture of ICVs as the“three rows and two columns”structure is studied,the methodology that supported the roadmap is explained with a case study and the influence of key technologies with proposed development routes is analyzed.Originality/value–This paper could help researchers understand both thoughts and methodologies behind the technology roadmap of ICVs.展开更多
This paper introduces a knowledge construction model called the i-System for knowledge integration and creation and its relation to the new concept of the Creative Space. The five ontological elements of the i-System ...This paper introduces a knowledge construction model called the i-System for knowledge integration and creation and its relation to the new concept of the Creative Space. The five ontological elements of the i-System are Intelligence, Involvement, Imagination, Intervention, and Integration corresponding to five diverse dimensions of the Creative Space. The paper discusses the meanings and functions of these dimensions in knowledge integration and creation, and presents applications of the i-System to technology roadmapping and archiving.展开更多
Heating decarbonization is a major challenge for China to meet its 2060 carbon neutral commitment,yet most existing studies on China’s carbon neutrality focus on supply side(e.g.,grid decarbonization,zero-carbon fuel...Heating decarbonization is a major challenge for China to meet its 2060 carbon neutral commitment,yet most existing studies on China’s carbon neutrality focus on supply side(e.g.,grid decarbonization,zero-carbon fuel)rather than demand side(e.g.,heating and cooling in buildings and industry).In terms of end use energy consumption,heating and cooling accounts for 50% of the total energy consumption,and heat pumps would be an effective driver for heating decarbonization along with the decarbonization on power generation side.Previous study has discussed the underestimated role of the heat pump in achieving China’s goal of carbon neutrality by 2060.In this paper,various investigation and assessments on heat pumps from research to applications are presented.The maximum decarbonization potential from heat pump in a carbon neutral China future could reach around 1532Mton and 670Mton for buildings and industrial heating respectively,which show nearly 2 billion tons CO_(2) emission reduction,20% current CO_(2) emission in China.Moreover,a region-specific technology roadmap for heat pump development in China is suggested.With collaborated efforts from government incentive,technology R&D,and market regulation,heat pump could play a significant role in China’s 2060 carbon neutrality.展开更多
文摘In recent years environmental and sustainability concerns have impacted the global chemical industry and instituted a rush to produce products from renewable raw materials.This dynamic,complex and turbulent organizational scenario,around themes touching on the issue of sustainable development model,was created involving a large number of different actors:chemical/petrochemical industries,agroindustry companies,oil/gas companies,brand owners and end users,biotechnology startups,governments,universities and society.This paper proposed the application of a structured and dynamic method of technological prediction for biopolymers in three levels:systematic monitoring process,relational database and the“alive”Technology Roadmapping visualization tool.The main objective is to identify strategic actions,business models,the latest´s technologies in development,as well as trends in the field of biopolymers in order to support companies on position themselves in this competitive scenario.Furthermore,companies,universities,government agencies and institutions could apply this dynamic and alive methodology to indeed access innovation opportunities,challenges and threats for different industrial segments and to provide dynamic knowledge management collaborating to their strategy including a database crossing for the all organization.
文摘As a result of Japan raising the alert level at its quake-damaged nuclear plant from four to seven on a seven-point international scale of atomic incidents,which was caused by the 9.0-magnitude earthquake
基金This paper is funded by:National Key Research and Development Program of China(2018YFE0204302)National Natural Science Foundation of China(52072212,52072214)Dongfeng Automobile Co.,Ltd.and China Intelligent and Connected Vehicles(Beijing)Research Institute Co.,Ltd.
文摘Purpose–The rapid development of Intelligent and Connected Vehicles(ICVs)has boomed a new round of global technological and industrial revolution in recent decades.The Technology Roadmap of Intelligent and Connected Vehicles(2020)comprehensively analyzes the technical architecture,research status and future trends of ICVs.The methodology that supports the roadmap should get studied.Design/methodology/approach–This paper interprets the roadmap from the aspects of strategic significance,technical content and characteristics of the roadmap,and evaluates the impact of the roadmap on researchers,industries and international strategies.Findings–The technical architecture of ICVs as the“three rows and two columns”structure is studied,the methodology that supported the roadmap is explained with a case study and the influence of key technologies with proposed development routes is analyzed.Originality/value–This paper could help researchers understand both thoughts and methodologies behind the technology roadmap of ICVs.
基金supported by the Ministry of Education,Culture,Sports,Science and Technology of Japan under a Grant-in-Aid for Scientific Research number 18046005Part of the paper was presented in the conference of IEEE SMC 2008
文摘This paper introduces a knowledge construction model called the i-System for knowledge integration and creation and its relation to the new concept of the Creative Space. The five ontological elements of the i-System are Intelligence, Involvement, Imagination, Intervention, and Integration corresponding to five diverse dimensions of the Creative Space. The paper discusses the meanings and functions of these dimensions in knowledge integration and creation, and presents applications of the i-System to technology roadmapping and archiving.
基金National Natural Science Foundation of China:Study on cycle construction and application of large temperature lift heat pump and steam generation system(52036004).
文摘Heating decarbonization is a major challenge for China to meet its 2060 carbon neutral commitment,yet most existing studies on China’s carbon neutrality focus on supply side(e.g.,grid decarbonization,zero-carbon fuel)rather than demand side(e.g.,heating and cooling in buildings and industry).In terms of end use energy consumption,heating and cooling accounts for 50% of the total energy consumption,and heat pumps would be an effective driver for heating decarbonization along with the decarbonization on power generation side.Previous study has discussed the underestimated role of the heat pump in achieving China’s goal of carbon neutrality by 2060.In this paper,various investigation and assessments on heat pumps from research to applications are presented.The maximum decarbonization potential from heat pump in a carbon neutral China future could reach around 1532Mton and 670Mton for buildings and industrial heating respectively,which show nearly 2 billion tons CO_(2) emission reduction,20% current CO_(2) emission in China.Moreover,a region-specific technology roadmap for heat pump development in China is suggested.With collaborated efforts from government incentive,technology R&D,and market regulation,heat pump could play a significant role in China’s 2060 carbon neutrality.
