Commercialization of Energy Recovery Micro-Turbine Technology. Technical and Market development study for the product developed by QRRNT AS
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https://hdl.handle.net/10037/15534Date
2018-05-31Type
Master thesisMastergradsoppgave
Abstract
This thesis explores the avenues of commercialization for the energy recovery product
developed by QRRNT AS, specifically for land based industries.
This thesis has four chapters which are co-related. The Introductory chapter introduces
QRRNT, its product, and the importance of the topic. This chapter gives an outline of the entire
thesis to follow. It discusses the research questions that the thesis is attempting to answer and
the choice of relevant theoretical frameworks adopted for each of the sub-chapters.
Methodology adopted to gather data and its relevance is discussed subsequently. Thereafter,
the Innovation study attempts to study the product’s innovativeness and diffusion potential.
Technical know-how, innovativeness, Techno Economic Evaluation & Intellectual property
considerations with respect to the product are explored in this chapter. Then the impact of the
Innovation study is used to determine how to best position and place the innovation in market
so that maximum adoption of the innovation can happen in the least amount of time. This is
discussed and elaborated thoroughly in the chapter of Market Study. The chapter starts with
the macro analysis which affect marketing activities for QRRNT. Thereafter, the need for a
comprehensive Marketing Strategy Model is discussed and it goes on to derive the same. Its
implications are discussed subsequently. Finally, the chapter ends with discussing other
functional strategies and discussion on competitors. Thereafter a concise business plan is
presented as the final chapter. Chapter-wise conclusions are provided at the end while the
conclusion for the entire thesis as a whole is provided in the Introduction.
The findings show that QRRNT has an excellent chance of diffusion of its innovation. The
product is unique in many respects and provides a previously unexplored source of energy
recovery for industries. The main factor that can inhibit the innovation diffusion is the ancillary
costs associated with this innovation. QRRNT must also consider Internationalization and
lowering production costs, to better target markets which get more ‘bang for the buck’ in terms
of energy and environmental savings. Thus, QRRNT has to arrive at a good combination of
geographic location, capital costs, electricity costs, environmental impact & economic impact
to maximize its chances of innovation diffusion. This will help QRRNT identify potential
customers and the ones that will be most likely to adopt it.
Publisher
UiT Norges arktiske universitetUiT The Arctic University of Norway
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