Abstract
This paper proposes a mixed integer linear programming model for a multi-product ordering in a three-echelon supply chain network, where multiple manufacturers supply multiple warehouses with multiple products, which in turn distribute the products to the multiple retailers involved. The model considers practical production constraints such as production capacity, backorder allowances, and economically-viable minimum order quantities. Numerical computations show that the model can efficiently solve small-sized problem instances. © 2019, IEOM Society International.

Abstract
There are two recognized tendencies in electricity markets: the development of spot markets and the increase of renewable electricity generation. These tendencies create dynamics in both price and volatility. In Portugal, there are powerful support schemes for renewable electricity. Therefore, the main sources for generating electricity in Portugal are renewable. This paper analyzes ex-post the impact of energy produced in special regime on the wholesale hourly spot market prices of Portuguese electricity during the period 2009-2016. It finds that special regime generation has a negative impact on the wholesale price. Effectively, an increase of special regime generation by 1.0 GWh, all else being equal, reduces the wholesale spot price by 3.9 (sic)/MWh. This represents 8.6% of the average wholesale price. Moreover, the substitution of 1.0 GWh of coal generation for special regime sources has an impact on electricity spot prices of, on average, -15.96 (sic)/MWh. This paper also concludes that using special regime generation to supply the future growth of demand will decrease wholesale electricity spot prices more intensively than using other technologies.

Abstract
In small and rural regions, where we can many times find top quality products, there is, many times, a greater difficulty in promoting their products. This difficulty begins in the nature of the companies that manufacture these products. These companies are typically family-owned or small-sized, not having large capacity to carry out very elaborate marketing strategies. They often depend of the tourist attractiveness of the regions themselves to leverage their sales. This paper discuss the challenges for the promotion of regional products and rural regions, review the role of smartphones and the main tag-based contextualization mechanisms and their potential for leverage the sale of rural regional products and, finally, presents a cooperation-based conceptual model, where are combined contextualization-tags and mobile devices to promote regional products, leverage sales and promote rural regions by attracting new visitants, making regional products a window-mechanism to the promotion of rural regions heritage and tourism-related services.

Abstract
Jet impingement is widely implemented in a variety of engineering applications and industrial processes where high average heat transfer coefficients and the uniformity of the heat transfer over the impinging surface are required to enhance the process and to avoid local hot (or cold) spots. Multiple jet impingement involves several parameters that interfere with the performance of the process, and there are no universal optimal solutions. To ensure the optimization of the process, it is important to understand the influence of these parameters in the heat transfer over the target surface. To perform this study an experimental research will be performed on a purpose-built test facility which has been commissioned, using a Particle Image Velocimetry system. However, to reduce time and costs associated to the experimental tests, it is important to perform a Design of Experiments, that allows to reduce the number of trials, focusing on the parameters that have a greater influence on the process performance. Taguchi’s method allows the optimization of the process through the selection of the most suitable parameters values. This work presents the method that must be followed before the development of experiments related to the multiple jet impingement over a complex surface, from the design of the experimental setup to the design of the matrix of experiments. © 2019, Springer Nature Switzerland AG.

Abstract

Abstract
Close collaboration between schools and industry can lead to better results, providing effective improvements in electrical engineering education. The Electric Energy Systems Projects whenever possible should be developed under a cooperation agreement with an industry partner or with an institution, in order that the students have the opportunity to apply the knowledge and techniques learned in the academic course. The ability to design, fabricate and test, providing hands-on experience is very valued by the students and is the essential part of the paradigm of engineering. This paper describes how real engineering design problems were integrated in Electric Energy Systems final project and the learning methodologies that were applied to achieve this purpose.