13 results on '"Campana, Pietro Elia"'
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2. Contributors
- Author
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Acuña, Guillermo J., primary, Bekirsky, Natalia, additional, Bekkouche, Benaissa, additional, Beluco, Alexandre, additional, Berger, Mathias, additional, Bochenek, Bogdan, additional, Brisbois, Marie Claire, additional, Camargo, Luis Ramirez, additional, Campana, Pietro Elia, additional, Campos, Rafael Antunes, additional, Canales, Fausto Alfredo, additional, Cantor, Diana, additional, Christo, Eliane da Silva, additional, Ciapała, Bartłomiej, additional, Cioccolanti, Luca, additional, Costa, Kelly Alonso, additional, De Felice, Matteo, additional, dos Santos, Luiza, additional, Đurin, Bojan, additional, Ebadi, Hossein, additional, Ernst, Damien, additional, Fernandes, Pamela Caroline Barros, additional, Florez-Guerra, Huber, additional, Gallardo, Rafael Peña, additional, Gorjian, Shiva, additional, Guezgouz, Mohammed, additional, Guo, Yi, additional, Hoicka, Christina E., additional, Iqbal, Masab, additional, Jadwiszczak, Piotr, additional, Javed, Muhammad Shahzad, additional, Jiménez-Garrote, Antonio, additional, Jurasz, Jakub, additional, Kamrani, Fatemeh, additional, Kapica, Jacek, additional, Kasiulis, Egidijus, additional, Kaźmierczak, Bartosz, additional, Khan, Irfan, additional, Kies, Alexander, additional, Kranjčić, Nikola, additional, Kuriqi, Alban, additional, Lajqi, Shpetim, additional, Lawford, Richard, additional, Liu, Pan, additional, Ma, Tao, additional, McPherson, Madeleine, additional, Mesa, Oscar, additional, Ming, Bo, additional, Niemierka, Elżbieta, additional, Ochoa, Andrés, additional, Payares-Fontalvo, Manuel, additional, Plantak, Lucija, additional, Pozo-Vázquez, David, additional, Radu, David, additional, Risso, Alfonso, additional, Rosa, Caroline de Oliveira Costa Souza, additional, Rüther, Ricardo, additional, Samanta, Samiran, additional, Santos-Alamillos, Francisco J., additional, Sapiega, Patryk, additional, Savoldi, Laura, additional, Tascioni, Roberto, additional, Weschenfelder, Franciele, additional, Yan, Jie, additional, and Zheng, Wandong, additional
- Published
- 2022
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3. Teaching about complementarity – proposal of classes for university students – including exercises
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Acuña, Guillermo J., primary, Berger, Mathias, additional, Campana, Pietro Elia, additional, Campos, Rafael Antunes, additional, Canales, Fausto Alfredo, additional, Cantor, Diana, additional, Ciapała, Bartłomiej, additional, Cioccolanti, Luca, additional, De Felice, Matteo, additional, Rosa, Caroline de Oliveira Costa Souza, additional, Đurin, Bojan, additional, Gorjian, Shiva, additional, Guezgouz, Mohammed, additional, Hoicka, Christina E., additional, Jadwiszczak, Piotr, additional, Javed, Muhamad Shahzad, additional, Kapica, Jacek, additional, Kasiulis, Egidijus, additional, Lawford, Richard, additional, Kuriqi, Alban, additional, Ma, Tao, additional, McPherson, Madeleine, additional, Mesa, Oscar, additional, Ming, Bo, additional, Ochoa, Andrés, additional, Peña Gallardo, Rafael, additional, Radu, David, additional, Santos-Alamillos, Francisco J., additional, Yan, Jie, additional, Pozo-Vázquez, David, additional, Beluco, Alexandre, additional, Kies, Alexander, additional, Liu, Pan, additional, Guo, Yi, additional, and Jurasz, Jakub, additional
- Published
- 2022
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4. List of contributors
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Ahmed, Mushtaque, primary, Anand, Abhishek, additional, Badiee, Amir, additional, Biwole, Pascal, additional, Campana, Pietro Elia, additional, Chand, Aneesh A., additional, Dahlke, Flemming, additional, Das, Gautham P., additional, Dhal, Ipsa Sweta, additional, Ebadi, Hossein, additional, Emami, Paria, additional, Eterafi, Sina, additional, Fakhraei, Omid, additional, Focken, Ulfert, additional, Ghalazman E., Amir, additional, Gorjian, Shiva, additional, Gould, Iain, additional, Hermann, Charis, additional, Heselden, James, additional, Jakobsson, Simson, additional, Jathar, Laxmikant D., additional, Kamrani, Fatemeh, additional, Kant, Karunesh, additional, Ketzer, Daniel, additional, Kumar, Nallapaneni Manoj, additional, Lal, Prashant P., additional, Mousavi, Seyed Sina, additional, Mousavi Ajarostaghi, Seyed Soheil, additional, Özdemir, Özal Emre, additional, Papic, Iva, additional, Pearson, Simon, additional, Pennec, Fabienne, additional, Prasad, Kushal A., additional, Rajendran S., Vishnu, additional, Rösch, Christine, additional, Samadi, Haniyeh, additional, Savoldi, Laura, additional, Shamseddine, Ibrahim, additional, Sharma, Atul, additional, Shukla, Amritanshu, additional, Srivastava, Ankit, additional, Tlaiji, Ghadie, additional, Trommsdorff, Max, additional, Vadiee, Amir, additional, Weinberger, Nora, additional, Wright, Isobel, additional, Yan, Jinyue, additional, and Zarafshan, Payam, additional
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- 2022
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5. Renewable energies in the context of the water–food–energy nexus
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Campana, Pietro Elia, primary and Lawford, Richard, additional
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- 2022
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6. Contributors
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Abbhijith, H, primary, Ahmad, Farah Binti, additional, Ahmad, Iftikhar, additional, Akmal, Mohd Hatta Maziati, additional, Alrawashdeh, Khalideh Al bkoor, additional, Ali, Farman, additional, Ali, Nisar, additional, Ansari, Shahid Pervez, additional, Antonio, Graziella C., additional, Arregi, Aitor, additional, Artetxe, Maite, additional, Asiri, Abdullah M., additional, Attique, Saira, additional, Barelli, Linda, additional, Bartocci, Pietro, additional, Batool, Madeeha, additional, Bidini, Gianni, additional, Bilal, Muhammad, additional, Campana, Pietro Elia, additional, Cenedese, Caio H.S., additional, Chakravarthy, M., additional, Chandrasekaran, Arunkumar, additional, Chaurasiya, Prem Kumar, additional, Cho, Ja Young, additional, Cortazar, Maria, additional, Desideri, Umberto, additional, Nandhini Devi, G., additional, Drudi, Kelly C.R., additional, Fantozzi, Francesco, additional, Fernandez, Enara, additional, Ganeshkumar, P, additional, Godini, Hamid Raza, additional, Goerke, Oliver, additional, Gul, Eid, additional, Hassan, Amal I., additional, Hayat, Asif, additional, Hazmi, Alia Tasnim, additional, Hisham, Firzanah, additional, Hossain, Md. Faruque, additional, Husain, Ahmad, additional, Iqbal, Hafiz M.N., additional, Javed, Muhammad Rizwan, additional, Jung, Hyun Yi, additional, Khan, Anish, additional, Khan, Imran, additional, Khan, Mohammad Mujahid Ali, additional, Khurshid, Rafaqat, additional, Kim, Joong Kyun, additional, Kim, Nan Young, additional, Leite, Juliana Tófano C., additional, Li, Hailong, additional, Lopez, Gartzen, additional, Marana, Katherine B.B., additional, Marshal S, Joseph John, additional, Mulla, Sikandar I., additional, Nashine, Prerana, additional, Olazar, Martin, additional, Orozco, Santiago, additional, Pathak, Pankaj, additional, Karthic Raja, M, additional, Rajak, Upendra, additional, Rajamohan, Sakthivel, additional, Sakthivel, R, additional, Saleh, Hosam M., additional, Samuel, Shimon Yohan, additional, Santamaria, Laura, additional, Shah, Asma Tufail, additional, Shariq, Mohd Urooj, additional, Singh, Thokchom Subhaschandra, additional, Sinha, Sweta, additional, Srisowmeya, G., additional, Subbiah, Senthilmurugan, additional, Sundari, Kondru Gnana, additional, Uddin, Ikram, additional, Verma, Tikendra Nath, additional, Yan, Jinyue, additional, Yang, Haiping, additional, and Yang, Qing, additional
- Published
- 2021
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7. Perspectives and state of the art in producing solar fuels and chemicals from CO2
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Gul, Eid, primary, Campana, Pietro Elia, additional, Chandrasekaran, Arunkumar, additional, Subbiah, Senthilmurugan, additional, Yang, Haiping, additional, Yang, Qing, additional, Yan, Jinyue, additional, Li, Hailong, additional, Desideri, Umberto, additional, Barelli, Linda, additional, Bidini, Gianni, additional, Fantozzi, Francesco, additional, Uddin, Ikram, additional, Hayat, Asif, additional, Alrawashdeh, Khalideh Al bkoor, additional, and Bartocci, Pietro, additional
- Published
- 2021
- Full Text
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8. Renewable energies in the context of the water-food-energy nexus
- Author
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Campana, Pietro Elia, Lawford, R., Campana, Pietro Elia, and Lawford, R.
- Abstract
The water-food-energy nexus approach was identified by the 2008 World Economic Forum as a key concept and methodology for studying and optimizing the important links among energy, water, and food. Energy, water, and food are basic human needs and are threatened by megatrends such as climate change and population growth. Renewable energies play an important role in the energy-water nexus because their water footprint, except for hydropower and bioenergy, is extremely low as compared to conventional fossil-based energy systems, especially for solar power and wind power conversion systems. Solar power and wind power systems reduce pressure on water resources by allowing for better water management, especially when it comes to conflicts between water for energy versus water for food. Renewable energies also represent a key pathway for combating climate change. This chapter introduces the concept of the water-food-energy nexus and its complex interrelationships and gives particular attention to renewable energies. Subsequently, several water-food-energy nexus aspects related to applications of renewable energies are investigated more deeply, with reference to practical examples. Particular attention will be given to floating photovoltaic systems, photovoltaic water-pumping systems, and agrivoltaics. The chapter concludes with the competition of land for energy versus land for food and on the role of the nexus in renewable-based wastewater systems.
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- 2022
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9. Photovoltaic water pumping systems for irrigation : Principles and advances
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Campana, Pietro Elia, Papic, I., Jakobsson, S., Yan, Jinyue, Campana, Pietro Elia, Papic, I., Jakobsson, S., and Yan, Jinyue
- Abstract
Agriculture is one of the most water- and energy-intensive sectors of the economy, consuming about 70% of global freshwater withdrawals. Access to clean and affordable water for irrigation is an essential step towards guaranteeing water and food security, improving incomes and living standards, decarbonizing an energy-intensive sector and attaining the United Nations Sustainable Development Goals (SDGs), in particular SDGs 2 (Zero Hunger), 6 (Clean Water and Sanitation), 7 (Affordable and Clean Energy), and 13 (Climate Action). Ensuring access to water for irrigation, as well as for other agricultural (i.e., livestock watering), domestic, and industrial purposes is a global challenge, and it is more challenging in remote areas where the grid connection is often not available. Solar-powered pumping systems represent a renewable solution for the decarbonization of the irrigation sector worldwide. While solar water pumping systems were used in the past to supply water for irrigation, livestock, and domestic purposes only in remote locations without access to the electric grid, the drastic drop in photovoltaic (PV) modules prices has made the technology also competitive for on-grid applications. This chapter reviews the configurations of solar water pumping systems for irrigation, highlighting the water–food–energy nexus aspects and recent advances, reviewing case studies, and analyzing the economics and current and future challenges.
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- 2022
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10. Teaching about complementarity - proposal of classes for university students - including exercises
- Author
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Acuña, G. J., Berger, M., Campana, Pietro Elia, Campos, R. A., Canales, F. A., Cantor, D., Ciapała, B., Cioccolanti, L., De Felice, M., de Oliveira Costa Souza Rosa, C., Acuña, G. J., Berger, M., Campana, Pietro Elia, Campos, R. A., Canales, F. A., Cantor, D., Ciapała, B., Cioccolanti, L., De Felice, M., and de Oliveira Costa Souza Rosa, C.
- Abstract
The idea behind this chapter is to provide teachers and students with material that can be used while studying renewable energy sources with special attention paid to their complementary characteristics. The questions and exercises included below refer to chapters presented in the book. In case of any questions, we provide the readers with contact details to chapters corresponding authors who would be happy in assisting you in case of any queries.
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- 2022
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11. Perspectives and state of the art in producing solar fuels and chemicals from CO2
- Author
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Gul, E., Campana, Pietro Elia, Chandrasekaran, A., Subbiah, S., Yang, H., Yang, Q., Yan, Jinyue, Li, Hailong, Desideri, U., Barelli, L., Bidini, G., Fantozzi, F., Uddin, I., Hayat, A., Alrawashdeh, K. A., Bartocci, P., Gul, E., Campana, Pietro Elia, Chandrasekaran, A., Subbiah, S., Yang, H., Yang, Q., Yan, Jinyue, Li, Hailong, Desideri, U., Barelli, L., Bidini, G., Fantozzi, F., Uddin, I., Hayat, A., Alrawashdeh, K. A., and Bartocci, P.
- Abstract
Solar Fuels and chemicals from CO2 can be produced through two main reactions: one is CO2 photoreduction, using different catalysts and different reducing agents; the other is CO2 fixation, which is usually performed through natural photosynthesis. The research nowadays is directed on the production of fuels and chemicals with one or two atoms of carbon, for example CH4, CO, HCOOH, HCHO, CH3OH, C2H5OH, etc. The chapter aims at comparing natural photosynthesis processes and reactions with artificial photosynthesis. After taking into consideration the natural photosynthetic process, the chapter focuses on heterogeneous and homogeneous photocatalysis. Heterogeneous catalysis can be performed with semiconductors and powder catalysts. Special attention is given to TiO2 as a promising photocatalyst. Homogeneous photocatalysts are usually represented by molecular catalysts, which are dissolved in water or another solvent. Usually, homogeneous photocatalysis is performed in complex systems which are composed by: a light harvesting unit (LHU) (i.e. the photosensitizer); one catalytic site for the oxidation process, where the electrons are supplied by a sacrificial donor; one reduction site, where the electrons are transmitted to CO2. Finally, even more complex systems are represented by those based on photoelectrocatalysis. These have the main advantage to separate the oxidation and reduction reactions at the two different electrodes of the system. In principle photoelectrochemical cells can be a way to mimic artificially the working principle of natural photosynthesis., Export Date: 8 June 2022; Book Chapter
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- 2021
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12. A semi-empirical, electrochemistry-based model for Li-ion battery performance prediction over lifetime
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Varini, Maria, Campana, Pietro Elia, Lindbergh, Göran, Varini, Maria, Campana, Pietro Elia, and Lindbergh, Göran
- Abstract
Predicting the performance of Li-ion batteries over lifetime is necessary for design and optimal operation of integrated energy systems, as electric vehicles and energy grids. For prediction purposes, several models have been suggested in the literature, with different levels of complexity and predictability. In particular, electrochemical models suffer of high computational costs, while empirical models are deprived of physical meaning. In the present work, a semi-empirical model is suggested, holding the computational efficiency of empirical approaches (low number of fitting parameters, low-order algebraic equations), while providing insights on the processes occurring in the battery during operation. The proposed model is successfully validated on experimental battery cycles: specifically, in conditions of capacity fade > 20%, and dynamic cycling at different temperatures. A comparable performance to up-to-date empirical models is achieved both in terms of computational time, and correlation coefficient R-2. In addition, analyzing the evolution of fitting parameters as a function of cycle number allows to identify the limiting processes in the overall battery degradation for all the protocols considered. The model suggested is thus suitable for implementation in system modelling, and it can be employed as an informative tool for improved design and operational strategies., QC 20191119
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- 2019
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13. Harmonics propagation and interaction evaluation in small-scale wind farms and hydroelectric generating systems.
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Zhao Z, Mahmud MA, Campana PE, Hredzak B, Luo J, Chen D, and Xu B
- Abstract
The harmonics exacerbated by the integration of distributed energy such as wind power has been extensively studied. However, the interaction and propagation mechanism between harmonic sources in the hydro-wind complementary generation system are still not clear. To tackle this challenge, the presented study establishes the hydro-wind complementary generation system model and explores the harmonics propagation and interaction in all components. Then three operation mode of complementary system (scenario 1: stand-alone Hydroelectric Generating System, scenario 2: stand-alone Wind Farm (WF) and scenario 3: complementary generation system) are selected. The results demonstrate that the integration of HGS diminishes the harmonic at DFIG side but at the grid side. In complementary generation system, the THD
u rises but the corresponding THDi declines due to the regulation of power grid. Furthermore, the odd harmonics interactions analysis reveal that the doubly-fed induction generator's (DFIG) side and the stator's side are the two high-risk sources in the complementary generation process. The presented results provide a basis for power quality evaluation of hydro-wind complementary generation system., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 ISA. Published by Elsevier Ltd. All rights reserved.)- Published
- 2022
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