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ResearchWire has developed strong processes and methods to use TRIZ along with Patent data, NPLs, and product searches to bring forth creative solutions to persistent technical challenges.

Overview

Regardless of how many analysis tools and data one has, sometimes the project might hit roadblocks and one may not be able to find a way forward. This is where TRIZ becomes a handy solution. TRIZ (pronounced “trees”) is the acronym for the Russian term “Teoriya Resheniya Izobreatatelskikh Zadatch” , a method of solving problems in technical systems. In simpler terms, it is the “Theory of Inventive Problem Solving”.

Need

TRIZ, is a problem-solving methodology that depends on data, research, and logic. Theory of Inventive Problem Solving (TRIZ) takes previous data and the knowledge of many engineers to come up with creative solutions. TRIZ adds predictability, reliability, and repeatability to the problem-solving approach.

Samsung has saved over $100 million by implementing TRIZ in some of its projects. It has become the bedrock of innovation at Samsung. Many of the world’s innovative companies such as Samsung, General Electric, LG, Intel, Procter & Gamble, Motorola, HP, Rolls-Royce, etc., have used TRIZ in design engineering, process management, and the development of products.

Methodology

We have developed our own TRIZ-based innovative tools and methodology that can help solve problems with the help of TRIZ problem-translation processes. It enables real problems to be translated into TRIZ general problems, and our team follows the in-house detailed solution guidelines to recommend specific solutions that have been optimized and are feasible.

Along with these tools, Researchwire has the necessary technical know-how and wherewithal to implement TRIZ. We have successfully implemented TRIZ for several companies and helped them solve their bottlenecks, achieve new product development, and circumvent FTO issues.
A case study that serves as a model or reference for others –
Researchwire helped a technology giant in improving the design of their wall mounted boilers. The goal was to decrease the exhaust gas temperature by blocking the thermal radiation and guiding the exhaust gas flow over the finned tube of the heat exchanger. Additional goal was to decrease the exhaust gas temperature by blocking the thermal radiation and guiding the exhaust gas flow over the finned tube of the heat exchanger. Therefore, to move more exhaust gas over the heat exchanger and to maximize energy usage, several principles were investigated such as –

  • Duration of action by moving object (i.e., exhaust gas)
  • Use of energy by stationary object (i.e., heat exchanger)
  • Loss of energy (i.e., effect of exhaust gas on heat exchanger)

Using the TRIZ principles, a new product was developed to solve the earlier issues in the product.
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