Bibliographic citations
Cachay, J., Samamé, D., Sánchez, M., Sánchez, J. (2023). Modelo prolab: Malcom Energy, una consultoría en eficiencia energética con soluciones especializadas para micro, pequeñas y medianas industrias [Pontificia Universidad Católica del Perú]. http://hdl.handle.net/20.500.12404/24340
Cachay, J., Samamé, D., Sánchez, M., Sánchez, J. Modelo prolab: Malcom Energy, una consultoría en eficiencia energética con soluciones especializadas para micro, pequeñas y medianas industrias []. PE: Pontificia Universidad Católica del Perú; 2023. http://hdl.handle.net/20.500.12404/24340
@mastersthesis{renati/539298,
title = "Modelo prolab: Malcom Energy, una consultoría en eficiencia energética con soluciones especializadas para micro, pequeñas y medianas industrias",
author = "Sánchez Rullier, Javier Andrés",
publisher = "Pontificia Universidad Católica del Perú",
year = "2023"
}
The exponential increased demand for energy resources produced in the last twenty years, due to the use of fossil resources for power generation is a reality that alarms the entire international community due to the serious consequences that it produces for the environment. Faced with this, energy efficiency emerges as one of the main alternatives to reduce CO2 and greenhouse gas emissions. It is at this point that Malcom S. A. identifies an opportunity to diversify these services and asks the thesis team to design an integral innovative solution proposal. Using the Design Thinking methodology, “Malcom Energy'' proposal was designed. This consists of an energy efficiency consulting service aimed at micro, small and medium-sized industrial companies. The desirability of the solution was verified through the development of interviews and surveys, where potential clients were interested in contracting the service at the price established as a reference. Likewise, its feasibility was demonstrated through the detailed analysis of the operational plan and the marketing plan designed for the proposal. Finally, the financial viability tests carried out based on a projected cash flow for 5 years showed that a NPV of S/. 1,536,101.85 and an IRR of 67%. Montecarlo simulations were also performed to validate the hypotheses of desirability, facticity and viability. Finally, it was shown that the proposal has an impact at the social level, since it is aligned with SDG 7 (Affordable and non-polluting energy) and 9 (industry, innovation and infrastructure). Along these lines, it has a social relevance index of 80% in SDG 7 and 50% in SDG 9. Finally, the Social NPV is 4,108,894 US
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