Your search keyword '"Piergiulio Cappelletti"' showing total 9 results

1. Use of Zeolites in the Capture and Storage of Thermal Energy by Water Desorption—Adsorption Cycles

Author

Bruno de Gennaro, Angelo Cappi, Maurizio de Gennaro, Nicola Bianco, Alessio Langella, Piergiulio Cappelletti, Antonello Marocco, Paolo Aprea, and Michele Pansini

Subjects

natural zeolites, synthetic zeolites, thermal energy storage, thermal energy waste, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

In this work, four zeolite-bearing materials (three naturally occurring and one of synthetic origin) were considered for thermal energy capture and storage. Such materials can store thermal energy as heat of desorption of the water present therein, heat that is given back when water vapor is allowed to be re-adsorbed by zeolites. This study was carried out by determining the loss of water after different activation thermal treatments, the water adsorption kinetics and isotherm after an activation step of the zeolites, the intergranular and intragranular porosity, and the thermal conductivity of the zeolite-bearing materials. Moreover, the thermal stability of the framework of the zeolites of the four materials tested was investigated over a large number of thermal cycles. The results indicate that zeolite 13X was the most suitable material for thermal energy storage and suggest its use in the capture and storage of thermal energy that derives from thermal energy waste.

Published

2022

2. Mineralogical and Technological Characterization of Zeolites from Basin and Range as Pozzolanic Addition of Cement

Author

Giovanna Montesano, Piergiulio Cappelletti, Domenico Caputo, Barbara Liguori, Assunta Campanile, and Concetta Rispoli

Subjects

zeolites, blended cement, pozzolanic addition, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

The present paper assesses petrographic, mineralogical, chemical, and technological features of different zeolitic tuff samples from various western USA districts of the Basin and Range Province containing mainly erionite, mordenite, clinoptilolite/heulandite and phillipsite. The aim of this characterization is to evaluate the pozzolanic activity of these samples according to European normative UNI-EN 196/5 (Fratini test) to program a possible use as addition for blended cements. Petrographic and mineralogical results show that the two phillipsite-bearing tuffs have a higher theoretical Cation Exchange Capacity (CEC) than the other samples; technological characterization shows a pozzolanic behavior for all the samples but higher for the tuff samples containing phillipsite, which shows a higher reactivity with CaO. All the samples could be thus advantageously employed for the preparation of blended cements, potentially reducing CO2 emissions by 70–90%.

Published

2022

3. Ancient Roman Mortars from Villa del Capo di Sorrento: A Multi-Analytical Approach to Define Microstructural and Compositional Features

Author

Concetta Rispoli, Renata Esposito, Luigi Guerriero, and Piergiulio Cappelletti

Subjects

ancient mortars, analytical characterization, Sorrento Peninsula, Mineralogy, QE351-399.2

Abstract

This research provides a characterization of ancient Roman mortars from “Villa del Capo di Sorrento” (commonly known as “Villa di Pollio Felice” or “Bagni della Regina Giovanna”). A deepened analysis of cementitious binding matrix and aggregates was conducted with the aims of determining possible sources of raw materials and the mix recipe, and to evaluate the minerogenetic secondary processes. Twenty samples taken from the Villa were investigated by means of a multi-analytical approach, including polarized optical microscopy on thin sections, X-ray powder diffraction, scanning electron microscopy analysis, energy dispersed spectrometry, simultaneous thermal analyses, and mercury intrusion porosimetry. Bedding mortars were made with slaked lime mixed with volcanic materials, whereas coating mortars were made adding to previous recipe as ceramic fragments. All samples were classified as hydraulic mortars. Cementitious binding matrix was characterized by gel-like C-A-S-H, calcite, hydrocalumite, and gypsum, deriving from lime/pozzolanic material. Geomaterials used for mortar production had a local origin. Pozzolanic materials, such as volcanic fragments, scoriae, pumice, and crystal fragments derived from both pyroclastic rocks of the Campi Flegrei district and from rocks of the Somma-Vesuvio complex; porosity test suggest that the products related to minerogenetic secondary processes, make mortars more resistant.

Published

2021

4. Multidisciplinary Approach for Evaluating the Geochemical Degradation of Building Stone Related to Pollution Sources in the Historical Center of Naples (Italy)

Author

Valeria Comite, Michela Ricca, Silvestro Antonio Ruffolo, Sossio Fabio Graziano, Natalia Rovella, Concetta Rispoli, Chiara Gallo, Luciana Randazzo, Donatella Barca, Piergiulio Cappelletti, and Mauro Francesco La Russa

Subjects

black crusts, cultural heritage, marble, Naples pollution, heavy metals, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Natural stones have represented one of the main building materials since ancient times. In recent decades, a worsening in degradation phenomena related mostly to environmental pollution was observed, threatening their conservation. The present work is focused on the minero-petrographic and geochemical characterization of black crust (BC) samples taken from the historical center of Naples, after selecting two pilot monumental areas. The latter were chosen based on their historical importance, type of material, state of preservation and position in the urban context (i.e., high vehicular traffic area, limited traffic area, industrial area, etc.). The building materials used and their interaction with environmental pollutions were studied comparing the results obtained by means of different analytical techniques such as polarized light Optical Microscopy (OM), scanning electron microscopy with energy dispersion system (SEM-EDS), X-ray powder diffraction (XRPD) and laser ablation coupled with inductive plasma mass spectrometry (LA-ICP-MS).

Published

2020

5. New Insights of Historical Mortars Beyond Pompei: The Example of Villa del Pezzolo, Sorrento Peninsula

Author

Concetta Rispoli, Sossio Fabio Graziano, Claudia Di Benedetto, Alberto De Bonis, Vincenza Guarino, Renata Esposito, Vincenzo Morra, and Piergiulio Cappelletti

Subjects

ancient mortars, archaeometry, multi-analytical characterization, sorrento peninsula, Villa del Pezzolo, hydraulicity index, constructive phases, production technology, raw materials, Mineralogy, QE351-399.2

Abstract

The topic of this study is the archaeometric characterization of mortars from Villa del Pezzolo, a Roman Villa located in Seiano (Napoli-Campania, Italy), dated between the 1st century B.C. and the 3rd century A.D. Mortars were analyzed by means of a multi-analytical approach (polarized optical microscopy, X-ray powder diffraction, scanning electron microscopy and energy-dispersed spectrometry, thermal analyses and mercury intrusion porosimetry) according to existing recommendations. Analytical results evidenced the use of local geomaterials composed of sedimentary and volcanic aggregates in the mix design and confirmed the three distinct building phases identified by archaeologists. Volcanic tuff fragments, identified in the 1st building phase can be ascribed to Campanian Ignimbrite formation, widely cropping out in the Sorrento Peninsula, as confirmed by the presence of glassy shards, partially devitrified and replaced by authigenic feldspar, a typical feature of welded grey ignimbrite lithofacies (WGI). Volcanic aggregates in samples of the 2nd and 3rd building phases show, instead, the presence of leucite-bearing volcanic scoriae and garnet crystal fragments related to Somma-Vesuvius products. Study of these mortars allowed us to: (1) understand the production technologies; (2) highlight use of materials with hydraulic behavior, such as volcanic and fictile fragments; (3) confirm the three building phases from compositional features of mortars and (4) highlight the change over time of the volcanic aggregate for mortars mix-design.

Published

2019

6. Identification of Zn-Bearing Micas and Clays from the Cristal and Mina Grande Zinc Deposits (Bongará Province, Amazonas Region, Northern Peru)

Author

Giuseppe Arfè, Nicola Mondillo, Giuseppina Balassone, Maria Boni, Piergiulio Cappelletti, and Tommaso Di Palma

Subjects

Zn-micas, Zn-clay minerals, Bongará, northern Peru, XRPD, SEM-EDS, Mineralogy, QE351-399.2

Abstract

Zn-bearing phyllosilicates are common minerals in nonsulfide Zn deposits, but they seldom represent the prevailing economic species. However, even though the presence of Zn-bearing clays is considered as a disadvantage in mineral processing, their characteristics can give crucial information on the genesis of the oxidized mineralization. This research has been carried out on the Mina Grande and Cristal Zn-sulfide/nonsulfide deposits, which occur in the Bongará district (Northern Peru). In both of the deposits, Zn-bearing micas and clays occur as an accessory to the ore minerals. The XRD analyses and scanning electron microscopy with energy dispersive X-ray spectroscopy (SEM-EDS) investigations revealed that the Zn-bearing micas that are occurring in both deposits mostly consist of I/S mixed layers of detrital origin, which have been partly altered or overprinted by sauconite during the supergene alteration of sulfides. Sporadic hendricksite was also identified in the Cristal nonsulfide mineral assemblage, whereas at Mina Grande, the fraipontite-zaccagnaite (3R-polytype) association was detected. The identified zaccagnaite polytype suggests that both fraipontite and zaccagnaite are genetically related to weathering processes. The hendricksite detected at Cristal is a product of hydrothermal alteration, which is formed during the emplacement of sulfides. The complex nature of the identified phyllosilicates may be considered as evidence of the multiple processes (hydrothermal and supergene) that occurred in the Bongará district.

Published

2017

7. Mineralogical and Technological Characterization of Zeolites from Basin and Range as Pozzolanic Addition of Cement

Author

Assunta Campanile, Piergiulio Cappelletti, Concetta Rispoli, Domenico Caputo, Giovanna Montesano, Barbara Liguori, Montesano, G., Cappelletti, P., Caputo, D., Liguori, B., Campanile, A., and Rispoli, C.

Subjects

blended cement, pozzolanic addition, zeolites, General Materials Science

Abstract

The present paper assesses petrographic, mineralogical, chemical, and technological features of different zeolitic tuff samples from various western USA districts of the Basin and Range Province containing mainly erionite, mordenite, clinoptilolite/heulandite and phillipsite. The aim of this characterization is to evaluate the pozzolanic activity of these samples according to European normative UNI-EN 196/5 (Fratini test) to program a possible use as addition for blended cements. Petrographic and mineralogical results show that the two phillipsite-bearing tuffs have a higher theoretical Cation Exchange Capacity (CEC) than the other samples; technological characterization shows a pozzolanic behavior for all the samples but higher for the tuff samples containing phillipsite, which shows a higher reactivity with CaO. All the samples could be thus advantageously employed for the preparation of blended cements, potentially reducing CO2 emissions by 70–90%.

Published

2022

8. Ancient Roman Mortars from Villa del Capo di Sorrento: A Multi-Analytical Approach to Define Microstructural and Compositional Features

Author

Luigi Guerriero, Piergiulio Cappelletti, Renata Esposito, Concetta Rispoli, Rispoli, Concetta, Esposito, Renata, Guerriero, Luigi, and Cappelletti, Piergiulio

Subjects

Gypsum, Pyroclastic rock, Mineralogy, engineering.material, 010502 geochemistry & geophysics, 01 natural sciences, chemistry.chemical_compound, analytical characterization, Pumice, 0601 history and archaeology, 0105 earth and related environmental sciences, Lime, Calcite, 060102 archaeology, Geology, ancient mortars, Sorrento Peninsula, 06 humanities and the arts, Pozzolan, Geotechnical Engineering and Engineering Geology, ancient mortar, chemistry, engineering, Cementitious, Mortar, QE351-399.2

Abstract

This research provides a characterization of ancient Roman mortars from “Villa del Capo di Sorrento” (commonly known as “Villa di Pollio Felice” or “Bagni della Regina Giovanna”). A deepened analysis of cementitious binding matrix and aggregates was conducted with the aims of determining possible sources of raw materials and the mix recipe, and to evaluate the minerogenetic secondary processes. Twenty samples taken from the Villa were investigated by means of a multi-analytical approach, including polarized optical microscopy on thin sections, X-ray powder diffraction, scanning electron microscopy analysis, energy dispersed spectrometry, simultaneous thermal analyses, and mercury intrusion porosimetry. Bedding mortars were made with slaked lime mixed with volcanic materials, whereas coating mortars were made adding to previous recipe as ceramic fragments. All samples were classified as hydraulic mortars. Cementitious binding matrix was characterized by gel-like C-A-S-H, calcite, hydrocalumite, and gypsum, deriving from lime/pozzolanic material. Geomaterials used for mortar production had a local origin. Pozzolanic materials, such as volcanic fragments, scoriae, pumice, and crystal fragments derived from both pyroclastic rocks of the Campi Flegrei district and from rocks of the Somma-Vesuvio complex, porosity test suggest that the products related to minerogenetic secondary processes, make mortars more resistant.

Published

2021

9. Copper Minerals at Vesuvius Volcano (Southern Italy): A Mineralogical Review

Author

L. D'Orazio, Nicola Mondillo, Giuseppina Balassone, Piergiulio Cappelletti, Nicola Corriero, Carmela Petti, Maria Cangiano, Angela Altomare, Roberto de Gennaro, Taras L. Panikorovskii, Balassone, G., Petti, C., Mondillo, N., Panikorovskii, T. L., de Gennaro, R., Cappelletti, P., Altomare, A., Corriero, N., Cangiano, M., and D'Orazio, L.

Subjects

copper minerals, 010504 meteorology & atmospheric sciences, Crystal chemistry, Somma-Vesuviu, fumarolic minerals, Geochemistry, chemistry.chemical_element, Somma–Vesuvius, 010502 geochemistry & geophysics, 01 natural sciences, Porphyry copper deposit, Alteration product, Somma-Vesuvius, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Mineral, Italy, volcano sublimates, alteration products, Volcano sublimates, Geology, Geotechnical Engineering and Engineering Geology, Software package, Fumarolic mineral, Copper, Copper ore, Copper mineral, chemistry, Volcano

Abstract

This work is part of a project focused on the Somma&ndash, Vesuvius volcano and aimed at identifying Cu minerals related to mineralizing processes associated with magmatic activity in an active magmatic-hydrothermal system. A mineralogical survey was carried out on a set of samples represented by sublimates and fumarolic products from the collection of the Mineralogical Museum of the University of Naples Federico II (Italy). These samples are mainly related to most recent eruptive episodes of Vesuvius activity, from 1631 onward. Copper-bearing minerals were characterized, as well as associated minerals, by X-ray diffraction (XRD) scanning electron microscopy with energy dispersive X-ray spectroscopy (SEM-EDS). An investigation on the structural complexity of Cu-mineral assemblages with different temperature formations was also carried out using the TOPOS software package. The main copper phases are sulfates, followed by vanadates, hydroxyhalides, oxides, carbonates, silicates and finally, phosphates. New mineral occurrences for Vesuvius, both Cu-bearing and Cu-free, are described. Nevertheless, the fumarolic/alteration minerals at Vesuvius cannot be considered of economic relevance as a copper reservoir, this type of mineralizations are significant for copper crystal chemistry and for the knowledge of the mineralogical variants. The obtained datasets can be of interest for the knowledge of volcanic byproducts of copper ore deposits (i.e., porphyry copper systems) and of (base) metal segregation processes.

Published

2019