A Study on Integrating TRIZ Trends of Evolution and Green Product Design －A Case Study of Wind Power with LED Lamp

• Main Author: 廖士德
• Other Authors: 姜台林
• Format: Others
• Language: zh-TW
• Published: 2010
• Online Access: http://ndltd.ncl.edu.tw/handle/00894248334990933047

碩士 === 明新科技大學 === 企業管理研究所 === 98 === Today, the ecological environment is facing unprecedented challenges under the circumstance of the gradually reduce of natural energy . The loss of tropical rain forest, arctic ice melting, damages the ozone layer, affect the survival of mankind. It is imperative to understand the development of substitute energy. Wind power owns clean non-polluting energy characteristics; meets the requirements of green environmental protection. It is also one of the main topics that most governments to promote in order to protect the environment. Innovation has been often seen as difficult for learning. Former Russian inventor G.S. Altshuller and his colleagues in the former U.S.S.R. developed a systematic inventive problem solving theory (TRIZ) after the analysis of more than 200,000 patents between 1946 and 1985. A lot of businesses apply TRIZ to solve the inventive problem for the product development and achieve very significant results. This study proposed a new green product design approach to integrate the TRIZ evolution trends, the patent map, the product life cycle and the principles of green design. The proposed approach can identify the inventive opportunities thru the analysis of patent search and explore the inventive ideas thru the green design principles and TRIZ applications. This study established a new product development algorithm for the green product and applied it on a wind power LED light innovative design to verify the feasibility of this proposed approach as well.