The article attempts to outline Adam Mickiewicz’s concept of subjectivity. He introduces it in his visionary poetic drama Dziady (Forefathers’ Eve) where a radically ambivalent situation is presented through the duality of the main character Gustaw/Konrad. The article describes this duality in terms of Paul Ricoeur’s distinction between cogito exalté and cogito brisé. In Dziady Mickiewicz dramatizes the transition from exaltation to dejection, the condition of cogito brisé (living with a wound). His romantic subject cannot throw away his past, but because he is acutely aware of his failings and his inadequacy he is able to free himself from delusions of grandeur and self-centered pride. The condition of uncertainty, inadequacy and chronic insatiability is like a gaping wound or a lack which may lead the ‘I’ to open up and seek the Other. It is a vision of man who knows he is deeply flawed but capable of pursuing a noble desire; vulnerable and fallible, beset by ‘endless error’ and yet able to act and get his act together; self-centered and yet, because of the relational nature of the human identity, capable of redirecting his emancipatory energy to Others. It can be summed up the concept of homo capax (homme capable) which, as this article argues, provides the key to Mickiewicz’s anthropology.
The growth in the system load accompanied by an increase of power loss in the distribution system. Distributed generation (DG) is an important identity in the electric power sector that substantially overcomes power loss and voltage drop problems when it is coordinated with a location and size properly. In this study, the DG integration into the network is optimally distributed by considering the load conditions in different load models used to surmount the impact of load growth. There are five load models tested namely constant, residential, industrial, commercial and mixed loads. The growth of the electrical load is modeled for the base year up to the fifth year as a short-term plan. Minimization of system power loss is taken as the main objective function considering voltage limits. Determination of the location and size of DG is optimally done by using the breeder genetic algorithm (BGA). The proposed studies were applied to the IEEE 30 radial distribution system with single and multiple placement DG scenarios. The results indicated that installing an optimal location and size DG could have a strong potential to reduce power loss and to secure future energy demand of load models. Also, commercial load requires the largest DG active injection power to maintain the voltage value within tolerable limits up to five years.