1. Can biomass energy curtail environmental pollution? A quantum model approach to Germany.
- Author
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Magazzino, Cosimo, Mele, Marco, Schneider, Nicolas, and Shahbaz, Muhammad
- Subjects
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BIOMASS energy , *POLLUTION , *CARBON emissions , *UNITARY transformations , *ENERGY consumption - Abstract
This paper aims to investigate the causal relationship among renewable energy technologies, biomass energy consumption, per capita GDP, and CO 2 emissions for Germany. We constructed an innovative algorithm, the Quantum model, and applied it with Machine Learning experiments – through a software capable of emulating a quantum system – to data over the period of 1990–2018. This process is possible after eliminating the "irreversibility" of classical computations (unitary transformations) by making the process "reversible". The empirical findings support the powerful role of biomass energy in reducing carbon dioxide emissions, although the effect of renewable energy technology displays a much stronger magnitude. Moreover, income remains an important determinant of environmental pollution in Germany. • An innovative Machine Learning algorithm (the Quantum model) has been constructed and applied. • The empirical findings support the powerful role of biomass energy in reducing CO 2 emissions. • GDP represents an important determinant of environmental pollution in Germany. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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