Your search keyword '"Claudio Comoglio"' showing total 25 results

1. Multicriteria Analysis for the Assessment of Flow Release Scenarios from a Hydropower Plant in the Alpine Region

Author

Andrea Mammoliti Mochet, Erica Vassoney, and Claudio Comoglio

Subjects

Decision support system, 010504 meteorology & atmospheric sciences, Process (engineering), Computer science, media_common.quotation_subject, 0208 environmental biotechnology, 02 engineering and technology, Stakeholders involvement, 01 natural sciences, Alpine sustainable hydropower, Environmental flows, Production (economics), Quality (business), Multicriteria analysis, Environmental planning, Hydropower, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, media_common, Government, business.industry, 020801 environmental engineering, Water resources, Environmental indicators, Sustainable management, Water resources management, business

Abstract

The Alpine region is an area of conflict between the significant demand for hydropower (HP) generation and the protection of landscape and aquatic ecosystems. Decision Support Systems, like multicriteria analysis (MCA), represent suitable tools to support decision-makers and stakeholders in managing the use of water resources in a more sustainable way. Based on a set of “quality indexes” identified in a previous study, the present paper analyzes the use of MCA in a real case study of HP sustainable management in Aosta Valley, one of the most important Italian regions for HP production. The Simple Additive Weighting (SAW) methodology was applied to quantify the flow to be released by an existing HP plant, in order to balance production needs and watercourse environmental conditions protection considering four criteria (Energy, Environment & Fishing, Landscape, and Economy). The decisional process was developed within a collaborative and participatory framework, involving key stakeholders in every decision-making step, and the obtained results were officially adopted by the Regional Government. In the paper, some innovative aspects of the case study are presented and discussed, like the elaboration of reactive indicators related to the watercourse discharge, progressively updated with the stakeholders along the process, and the definition of “real-time” alternatives, relating the flow releases to the natural discharges in the watercourse. Finally, some weaknesses of this MCA approach are identified and suggestions for improvements in future experimentations are proposed.

Published

2020

2. Constructed wetlands for the reuse of industrial wastewater: A case-study

Author

Vincenzo Andrea Riggio, Elena Comino, Claudio Comoglio, Giuseppe Campo, Barbara Ruffino, and Mariachiara Zanetti

Subjects

Engineering, 010504 meteorology & atmospheric sciences, constructed wetlands, Strategy and Management, industrial wastewater reuse, Water supply, phytoremediation, 010501 environmental sciences, Reuse, pilot phytoremediation treatment system, 01 natural sciences, Industrial and Manufacturing Engineering, Industrial wastewater treatment, Effluent, 0105 earth and related environmental sciences, General Environmental Science, Pollutant, Waste management, Renewable Energy, Sustainability and the Environment, business.industry, Environmental engineering, Phytoremediation, Constructed wetland, Sewage treatment, business

Abstract

The use of phytoremediation systems to enhance the treatment of industrial wastewater coming from a standard depuration process in order to allow their reuse can potentially lead to several interesting benefits (costs savings for depuration processes, freshwater and energy supply with a consequent reduction of the overall environmental impact of the industrial sites). In this work the case study of a large automotive plant (FCA plant in Verrone, Piedmont, NW Italy) was analyzed, with the aim of evaluating the possible application of a phytoremediation system (constructed wetland, CW) to treat the effluents of its existing wastewater treatment plant (WWTP, currently discharged into a watercourse) and reuse them in the industrial processes. For this purpose, a pilot CW system was set up with two different configurations horizontal and vertical. Experiments were carried out to identify the one characterized by the best abatement rate of the pollutant concentrations of the plant effluents. Results showed that the horizontal submerged flow system (HF) was the most efficient phytoremediation system suitable for the aging of the effluents of the existing WWTP in view of their possible reuse in the industrial processes. Furthermore, costs related to its scaling-up for a real application demonstrated that the CW can be the cheaper option compared to a traditional treatment process for wastewater reuse. The amount of treated water which may be reused can range from 55% to 80% of the effluents from the existing WWTP, with a consequent reduction of more than 80% in the current water supply from aquifers.

Published

2018

3. Assessing the energy potential of modernizing the European hydropower fleet

Author

George A. Aggidis, M. Rosa-Clot, Evgeniia Georgievskaia, Carlo De Michele, Juan I. Pérez-Díaz, Atle Harby, Anton Schleiss, Emanuele Quaranta, Epari Ritesh Patro, Ioannis Kougias, Alberto Pistocchi, Markus Wirth, Claudio Comoglio, Elena Vagnoni, Sebastian Muntean, Robert M. Boes, and Pedro Romero-Gomez

Subjects

Energy Engineering and Power Technology, Modernization theory, Energy policy, Energy storage, Upgrade, Retrofitting, media_common.cataloged_instance, European union, Hydropower, media_common, Refurbishment, Flexibility (engineering), Renewable Energy, Sustainability and the Environment, business.industry, Digitalization, Flexibility, Turbine, Water-energy nexus, Environmental economics, Fuel Technology, Electricity generation, Nuclear Energy and Engineering, Work (electrical), business

Abstract

About 50% of all hydropower plants (HPPs) worldwide were originally commissioned more than 40 years ago, so that the advanced age of the fleet is a major concern across all continents, and especially in Europe. The modernization of HPPs can generate several benefits in terms of generation, flexibility, safety, operation, and may have neutral or even positive implications for the environment. In this work, we appraise several options for the modernization of existing plants, with the exclusion of measures expected to increase the hydro-morphological pressure on water bodies (e.g. increase of withdrawals or new parallel waterways): dam heightening, head loss reduction in waterways, increase of weighted efficiency of electro-mechanical equipment, digitalization and inflow forecast, and floating photovoltaic (evaporation reduction). We provide an indicative estimation of the additional power and annual generation that could be obtained compared to the current condition. We estimate that the overall energy generation could be increased by 8.4% for European Union and 9.4% for the whole Europe by implementing the above-mentioned strategies. The additional energy gain achievable by increasing the inflow was discussed but not included in the above mentioned overall indicator, because it is very site-specific. The additional energy storage achievable by reservoir interconnection and coordinated operation has been estimated in literature as 169 TWh. This suggests that the modernization of HPPs can generate significant benefits in terms of energy, and should be considered as an important element of energy policy, also considering the additional benefits in terms of reliability and flexibility of the energy system that it may deliver. The modernization options considered here, insofar as not entailing a worsening of the hydro-morphological alterations, are also expected to cause limited or no conflict with the environmental objectives of water policies in Europe., Energy Conversion and Management, 246, ISSN:0196-8904, ISSN:1879-2227

Published

2021

4. Definition of an indicator assessing the impact of a dam on the downstream river landscape

Author

Erica Vassoney, Roberto Maddalena, Donatella Martinet, Maria Bozzo, Chiara Paternoster, Claudio Comoglio, Andrea Mammoliti Mochet, Claudia Quiriconi, and Raffaele Rocco

Subjects

Data collection, Ecology, business.industry, Discharge, Sustainable river management, Environmental resource management, River landscape, General Decision Sciences, Water withdrawal, Representativeness heuristic, Sustainability indicator, Ecological flows, Visual riverscape perception, Transparency (graphic), Sustainability, Environmental science, business, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Hydropower, Strengths and weaknesses, Downstream (petroleum industry)

Abstract

The increasing number of water withdrawals in Alpine regions represents a significant threat to aquatic ecosystems and river landscape (riverscape). To assess their sustainability, the impacts on river ecological status and landscape features need to be quantified with appropriate indicators. However, assessment of landscape attributes is a complex challenge, due to the lack of standardized methods. Moreover, few metrics quantifying the impacts of water withdrawal on downstream riverscape perception are available in the scientific literature. In this paper, a new indicator, named Landscape Protection Level (LPL), aimed at assessing the effects of water withdrawals on the river landscape, is presented. The indicator has been developed in Aosta Valley (NW Italian Alps), where the river network is heavily exploited by hundreds of withdrawals for hydropower production and irrigation, and it has been included in a multi-criteria analysis (MCA) procedure to assess the sustainability of water withdrawal licenses in relation to different flow release scenarios. The LPL indicator is based on three parameters, Constraint Factor, Release Factor, and Visual Elements Factor, quantifying the presence of landscape protection constraints, the ratio of flow released downstream of the dam to the available river discharge, and the impact on the visual perception of the bypassed stretch, respectively. Its application in four real case studies of existing hydropower plants is presented and discussed in the paper, demonstrating the indicator applicability to assess both specific release values and flow release scenarios varying over the year. Results are analyzed by highlighting the main strengths and weaknesses of the indicator and proposing some suggestions for future improvements. In particular, the reactiveness of the indicator, the representativeness of the stakeholders’ interests, the transparency of the indicator calculation procedure, and the time required for data collection and processing are discussed. Finally, future activities aimed at further improving the indicator applicability and transferability to different river contexts are proposed.

Published

2021

5. Environmental Flows Determination and Monitoring with Hydraulic Habitat Models—Pushing the Boundaries of Habitat Models Application

Author

Piotr Parasiewicz, Knut Alfredsen, Paweł Prus, Paolo Vezza, Claudio Comoglio, Christos Theodoropoulos, and Mikołaj Adamczyk

Subjects

upscaling, lcsh:Hydraulic engineering, Geography, Planning and Development, macroinvertebrates, STREAMS, Aquatic Science, Biochemistry, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, water management, River management, Temporal scales, Water Science and Technology, Fish, Habitat simulation models, Macroinvertebrates, Upscaling, Water management, fish, Aquatic fauna, lcsh:TD201-500, habitat simulation models, business.industry, Scale (chemistry), Environmental resource management, Simulation modeling, Quantitative determination, Habitat, Environmental science, business

Abstract

Hydraulic habitat simulation models were designed for the quantitative determination of environmental flows that consider the needs of aquatic fauna in rivers and streams. In the past 50 years, the modeling techniques were significantly developed, but expectations associated with model utility also increased. Nowadays, the tools are expected to be applicable across a range of spatial and temporal scales and to protect entire aquatic communities, while being inexpensive as well as easy to use in administrative and legal environments. Addressing these challenges is the focus of this volume. We invited papers that present recent developments in habitat modeling, supported by real life case studies. The submitted papers well represent the wide applicability of habitat simulation models, allowing us to address both ends of river management requirements: the ability to address very detailed site specific issues as well as the ability to address the coarse scale applications necessary in regional management.

Published

2019

6. Integrating meso-scale habitat modelling in the multicriteria analysis (MCA) process for the assessment of hydropower sustainability

Author

Raffaele Rocco, Andrea Mammoliti Mochet, Claudio Comoglio, Erica Vassoney, Paolo Vezza, and Roberto Maddalena

Subjects

environmental indicators, lcsh:Hydraulic engineering, River ecosystem, Process (engineering), sustainable river management, Geography, Planning and Development, stakeholders’ involvement, Aquatic Science, Biochemistry, habitat integrity index, multicriteria analysis (MCA), lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, MesoHABSIM, alpine water-use conflicts, water withdrawals, habitat modelling, ecological flows, Mesohabitat simulation model, Hydropower, Water Science and Technology, Strategic planning, lcsh:TD201-500, business.industry, Environmental resource management, Water Framework Directive, Habitat, Sustainability, Environmental science, business

Abstract

The increasing number of water abstractions and water-use conflicts in alpine regions represents a significant threat for these fragile aquatic ecosystems. The use of tools, like multicriteria analysis (MCA), can support related decision-making processes towards sustainable solutions. In this paper, an innovative approach to assess water withdrawals sustainability by integrating the MesoHABSIM (Mesohabitat Simulation Model) into an MCA framework is presented and discussed. The methodology was implemented by replacing, within the MCA assessment, Water Framework Directive biological indicators with the MesoHABSIM based river Habitat Integrity Index, related to watercourse discharge and morphology, which allows quantifying the impacts of withdrawals on river ecosystems and fish communities. The resulting MCA procedure considers four criteria (energy, environment and fishing, landscape, economy) and requires only the use of measurable indicators based on watercourse discharge and its continuous monitoring. It was tested in Aosta Valley region (NW Italy) to both ex ante and ex post scenarios, for different types of water withdrawals and, currently, 20 experimentations, involving 58 hydropower plants and 12 farmer consortia, are ongoing. The proposed MCA process demonstrated its applicability with an increased decision-making quality and involved stakeholders&rsquo, satisfaction and is being officially endorsed in the regional River Strategic Plan.

Published

2019

7. Analysis of two treatment technologies for coffee roasting matrixes: combustion and anaerobic digestion

Author

Vincenzo Andrea Riggio, Giuseppe Campo, Alberto Cerutti, Claudio Comoglio, Deborah Panepinto, and Mariachiara Zanetti

Subjects

Economics and Econometrics, Flue gas, Environmental Engineering, 020209 energy, Energy balance, Combustion, Context (language use), 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Anaerobic digestion, 0202 electrical engineering, electronic engineering, information engineering, Environmental Chemistry, media_common.cataloged_instance, European union, Process engineering, 0105 earth and related environmental sciences, media_common, Coffee production waste, Energy recovery, Environmental compatibility, business.industry, General Business, Management and Accounting, Renewable energy, Greenhouse gas, Environmental science, business

Abstract

Even if the demand for energy continues to increase, the European Union Directive 2009/28/EC has set a goal of obtaining 20% of all energy from renewable sources by 2020. In this context, this study investigated two different scenarios: direct combustion and anaerobic digestion. Direct combustion was evaluated using the mass and energy balance method in order to obtain indications of the energy revenue, the emissions, and consequently the necessary flue gas depuration equipment. Anaerobic digestion was evaluated by performing experimental tests in the laboratory, in order to obtain indications of the energy revenue. The results show that both the processes present some advantages: from the energy viewpoint the more suitable process is direct combustion (energy revenue equal to 1.16 MWh/tinput instead to the 0.48 MWh/tinput obtained for the anaerobic digestion), while from the viewpoint of greenhouse gas emissions (GHGs, in particular the CO2 emissions) the results are rather similar. (We evaluated that the emission is equal to 1.18 kg CO2/kginput for the direct combustion and to 1.06 kg CO2/kginput for the anaerobic digestion.) The anaerobic digestion presents more advantages from the viewpoint of features a simpler plant layout; the combustion scenario requires a more complex technology, in particular for dealing with NOx emissions. (The concentration coming from the process is equal to 900 mg/Nm3.) For this specific study, based on the obtained results, the anaerobic digestion proved to be the more suitable treatment process. Furthermore, the analysis considered here demonstrates a general methodology useful for energy production compatibility planning.

Published

2019

8. Strategies for Mitigating the Impact of Hydropower Plants on the Stocks of Diadromous Species in the Daugava River

Author

Olle Calles, Maris Kunickis, Alona Bolonina, and Claudio Comoglio

Subjects

Upstream (petroleum industry), Fish migration, business.industry, 020209 energy, fish migration, Environmental engineering, 02 engineering and technology, 010501 environmental sciences, fish passage, environmental impact, renewable energy, 01 natural sciences, Renewable energy, hydropower, Stocking, Energy(all), Environmental protection, Hydro power, 0202 electrical engineering, electronic engineering, information engineering, Environmental impact assessment, business, Hydropower, 0105 earth and related environmental sciences, Renewable resource

Abstract

The Daugava River is the largest river in Latvia. Daugava Hydro Power Plants built in 1939 – 1974 are Latvia's most important renewable resource in generation of electricity. The absence of fish passage structures excludes upstream migration of diadromous species. Compensatory stocking activities are introduced annually. The need for studying alternative or additional impact mitigation measures is based on biodiversity conservation aspects and possible changes in EU legislation. The case study of solutions for improving the Daugava River connectivity is introduced and further strategies for mitigating the impact of HPP are proposed in the paper.

Published

2016

9. EMAS in local authorities: Suitable indicators in adopting environmental management systems

Author

Claudio Comoglio, Irene Petrosillo, Serena Botta, Antonella De Marco, Petrosillo, Irene, Antonella De, Marco, Serena, Botta, and Claudio, Comoglio

Subjects

European level, Ecology, business.industry, Environmental resource management, General Decision Sciences, Local authorities, Context (language use), Audit, EMAS, Environmental management system, Adaptive management, Italy, Agency (sociology), European commission, Business, Environmental planning, Ecology, Evolution, Behavior and Systematics

Abstract

In the context of new tools suitable for making local authorities more pro-active in terms of effectiveness in environmental management, this paper analyzes the case of the application of EMAS (Eco-Management and Audit Scheme) to local authorities in Italy. EMAS is a European tool that was revised in 2009 with Regulation (EC) N. 1221/2009, named EMAS III. This paper has two goals. The first goal is to analyze how the local authorities, with an environmental management system registered under EMAS, evaluate the environmental aspects related to their activities. The second goal is to propose a set of specific indicators to be monitored, which would fulfill the EMAS III compulsory core-set of indicators. To do this all the EMAS registered public authorities in Italy have been contacted to obtain a copy of their most recent validated environmental statements. Then, for each environmental aspect considered, a matrix has been processed, reporting on related activities, environmental significance, indicators, and environmental targets to improve the performance of the EMS. The analysed environmental statements (75% response rate) deal with a high number of environmental aspects and refer to a wide range of activities carried out by the local authorities. The set of indicators demonstrates that registered local authorities have already enough information for the purpose of complying with the new EMAS III core indicators. On the contrary, EMAS III does not properly cover the several environmental issues and impacts faced by local authorities, so that a different, wider and more specific framework is needed for their environmental performance evaluation. As a result of this study, a set of 13 indicators has been proposed, based on those already in use by local authorities and on those used by the European Environment Agency for environmental assessments. Therefore, this paper can represent a first step towards the definition of sectorial reference guidelines that will be developed at the European level by the European Commission.

Published

2012

10. Turbulent flow field comparison and related suitability for fish passage of a standard and a simplified low-gradient vertical slot fishway

Author

Emanuele Quaranta, Christos Katopodis, Claudio Comoglio, and Roberto Revelli

Subjects

0106 biological sciences, Flow (psychology), ecohydraulics, Reynolds stress, 010501 environmental sciences, Computational fluid dynamics, 01 natural sciences, Stability (probability), CFD, ecohydraulics, fish passage, fishway, vertical slot fishway, Environmental Chemistry, 0105 earth and related environmental sciences, General Environmental Science, Water Science and Technology, Hydrology, Jet (fluid), business.industry, Turbulence, 010604 marine biology & hydrobiology, Mechanics, fish passage, vertical slot fishway, fishway, Hydraulic structure, Turbulence kinetic energy, Environmental science, business, CFD

Abstract

Fishways are hydraulic structures that allow passage of fish across obstructions in rivers. Vertical slot fishways—VSFs—are considered the most efficient and least selective type of technical fishway solutions, especially due to their ability to remain effective even when significant upstream and/or downstream water level fluctuations occur. The scope of the present study is to perform numerical simulations in order to investigate and compare the hydraulic turbulent flow field in a standard and a simplified version of the most common VSF design. Implications in relation to fish swimming behaviour and fish passage performance are discussed. Different water depths (as well as discharges) were investigated, using a bed slope of 5%, as a reference for low-gradient VSFs with a very limited selectivity that can be used in multispecies rivers in grayling-barbel regions. Results show that maximum values of velocity, turbulent kinetic energy, and Reynolds stresses are higher in the standard design. However, corresponding to slot geometry and orientation, the direction of the main jet in the simplified design is more inclined towards the left side of the pool. This causes the eddy to split into 2 smaller ones; the minimum eddy dimension is reduced from 0.4–0.5 to 0.2–0.3 m. These dimensions are detrimental for fish passage efficiency, being more comparable with fish length (0.15–0.40 m), thus affecting migrating fish stability and orientation. Furthermore, the standard design provides a more straightforward upstream path and wider areas of low flow velocities and turbulence, useful for fish resting. Therefore, it is recommended that the standard design should be preferred over its simplified version, even if its construction costs are around 10–15% higher than the simplified one.

Published

2017

11. Use of multicriteria analysis (MCA) for sustainable hydropower planning and management

Author

Andrea Mammoliti Mochet, Erica Vassoney, and Claudio Comoglio

Subjects

Engineering, Renewable energy, Environmental Engineering, Decision-making process, Multicriteria analysis, Stakeholders involvement, Sustainable hydropower, Water resources management, Waste Management and Disposal, Management, Monitoring, Policy and Law, Monitoring, 020209 energy, media_common.quotation_subject, 0208 environmental biotechnology, Decision Making, 02 engineering and technology, Field (computer science), 0202 electrical engineering, electronic engineering, information engineering, Quality (business), Decision-making, Hydropower, media_common, Policy and Law, business.industry, Management science, General Medicine, 020801 environmental engineering, Management, Sustainability, business

Abstract

Multicriteria analysis (MCA) is a decision-making tool applied to a wide range of environmental management problems, including renewable energy planning and management. An interesting field of application of MCA is the evaluation and analysis of the conflicting aspects of hydropower (HP) exploitation, affecting the three pillars of sustainability and involving several different stakeholders. The present study was aimed at reviewing the state of the art of MCA applications to sustainable hydropower production and related decision-making problems, based on a detailed analysis of the scientific papers published over the last 15 years on this topic. The papers were analysed and compared, focusing on the specific features of the MCA methods applied in the described case studies, highlighting the general aspects of the MCA application (purpose, spatial scale, software used, stakeholders, etc.) and the specific operational/technical features of the selected MCA technique (methodology, criteria, evaluation, approach, sensitivity, etc.). Some specific limitations of the analysed case studies were identified and a set of "quality indexes" of an exhaustive MCA application were suggested as potential improvements for more effectively support decision-making processes in sustainable HP planning and management problems.

Published

2017

12. Habitat modeling in high-gradient streams: the mesoscale approach and application

Author

Piotr Parasiewicz, Paolo Vezza, M. Spairani, and Claudio Comoglio

Subjects

Data collection, Ecology, Trout, business.industry, Mesoscale meteorology, STREAMS, Models, Biological, Rivers, Habitat, Animals, Environmental science, business, Scale (map), Restoration ecology, Ecosystem, Hydropower, Mobile mapping

Abstract

This study aimed to set out a new methodology for habitat modeling in high-gradient streams. The methodology is based on the mesoscale approach of the MesoHABSIM simulation system and can support the definition and assessment of environmental flow and habitat restoration measures. Data from 40 study sites located within the mountainous areas of the Valle d'Aosta, Piemonte and Liguria regions (Northwest Italy) were used in the analysis. To adapt MesoHABSIM to high-gradient streams, we first modified the data collection strategy to address the challenging conditions of surveys by using GIS and mobile mapping techniques. Secondly, we built habitat suitability models at a regional scale to enable their transferability among different streams with different morphologies. Thirdly, due to the absence of stream gauges in headwaters, we proposed a possible way to simulate flow time series and, therefore, generate habitat time series. The resulting method was evaluated in terms of time expenditure for field data collection and habitat-modeling potentials, and it represents a specific improvement of the MesoHABSIM system for habitat modeling in high-gradient streams, where other commonly used methodologies can be unsuitable. Through its application at several study sites, the proposed methodology adapted well to high-gradient streams and allowed the: (1) definition of fish habitat requirements for many streams simultaneously, (2) modeling of habitat variation over a range of discharges, and (3) determination of environmental standards for mountainous watercourses.

Published

2014

13. A SYSTEMATIC STUDY REGARDING THE IMPORTANCE OF OBTAINING ECOLABEL IN ROMANIA

Author

Mirela Panainte-Lehadus, Serena Botta, Claudio Comoglio, Valentin Nedeff, and Antonina Temea

Subjects

Technology, ecolabel, environmental impact, life cycle, romania, lcsh:T, Romania, Engineering (General). Civil engineering (General), lcsh:Technology, environmental impact, lcsh:TA1-2040, ecolabel, life cycle, Business, Ecolabel, TA1-2040, lcsh:Engineering (General). Civil engineering (General), Environmental planning

Abstract

The purpose of this paper is to review and present a short synthesis of the scientific literature on Ecolabel and an analysis of the types of products and services in Romania that obtained this environmental label. European eco-label is the only environmental quality label (type I; ISO 14024), awarded at institutional level (EC) valid all around the Europe, and it represents a unique opportunity to satisfy consumer expectations. In this way is promotes the design, production and marketing of products with lower environmental impact during their entire life cycle compared to other products in the same category. The EU Ecolabel covers a wide range of product groups, from major areas of manufacturing to tourist accommodation services. Key experts, in consultation with main stakeholders, develop the criteria for each product group in order to decrease the main environmental impacts over the entire life cycle of the product. Because the life cycle of every product and service is different, the criteria are tailored to address the unique characteristics of each product type. The European Ecolabel was introduced in Romania in 2002.

Published

2016

14. Use of quantitative habitat models for establishing performance metrics in river restoration planning

Author

Kathleen Ryan, Paolo Vezza, Claudio Comoglio, Thomas P. Ballestero, Joseph N. Rogers, and Piotr Parasiewicz

Subjects

River restoration, Resource (biology), Ecology, Process (engineering), Computer science, business.industry, Simulation modeling, Environmental resource management, Fish habitat, Aquatic Science, Adaptive management, Habitat, business, Mesohabitat simulation model, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Abstract

The ecological effectiveness and success of river restoration strongly depend on the resources invested in planning. Unfortunately, this trend of restoration engineering is frequently compromised by the application of qualitative assessment and resource intensive adaptive management processes. Habitat simulation models are effective tools for selecting ecologically effective restoration measures as part of the Environmental Benefits Analysis. Through the support from a mesohabitat simulation model, we identified three habitat metrics: (1) Habitat Quantity Deficiency; (2) Alteration of Habitat Structure; and (3) Habitat Stress Days Alteration to quantify and visualize differences between restoration options in Restoration Alternatives Assessment diagram. This concept of quantifying habitat models is supported by an example of application in the Wekepeke Brook in Massachusetts, in which the habitat metrics were used to define quantitative benchmarks, goals and targets to guide the restoration process from the design to the evaluation phase. The three habitat metrics are a cost effective alternative for evaluating the ecological benefits of a planned action. The methodology contributes to a high potential for designing and monitoring restoration projects.

Published

2012

15. A simple management tool for planning the restoration of river longitudinal connectivity at watershed level: priority indices for fish passes

Author

Claudio Comoglio, Olle Calles, and E. Pini Prato

Subjects

Fish migration, Watershed, business.industry, Ecology, Environmental resource management, Distribution (economics), Aquatic Science, Biology, Management tool, Petromyzon, Obstacle, %22">Fish , business, Watershed restoration

Abstract

Summary The present study aimed at defining and testing a simple and widely applicable management tool, based on already available or easily collectable data, which could allow Watershed Authorities to prioritize the interventions for river longitudinal connectivity restoration, reopening fish migration routes. The proposed priority indices for fish passes are based on obstacle characteristics, length of the potential reopened reach and fish species distribution and migratory behaviour. The indices were applied to two Italian watersheds (Arno and Magra Rivers) covering a total river length of more than 400 km. The priority lists produced by the application can function as a first step in defining a watershed restoration plan and could help the Watershed Authorities to address the available resources towards more detailed studies to be carried out at sites classified with the higher priority levels. This is the case of the Regional Natural Park Monte Marcello-Magra, where, within a recently funded LIFE+ project (P.A.R.C. –‘Petromyzon And River Continuity’), the first results of the priority indices application will be analyzed in greater detail and will consequently lead to the design and construction of fish passes to restore fish migration routes with a particular focus on sea lamprey (Petromyzon marinus).

Published

2011

16. APPLIED ISSUES: Size-dependent mortality of migratory silver eels at a hydropower plant, and implications for escapement to the sea

Author

L. S. Blunden, Ivan Olsson, Claudio Comoglio, Olle Calles, Paul S. Kemp, Larry Greenberg, and Monika Schmitz

Subjects

endocrine system, animal structures, biology, business.industry, Ecology, fungi, Size dependent, food and beverages, Aquatic animal, Aquatic Science, Silver eel, biology.organism_classification, Fishery, Habitat, Hydroelectricity, business, Biological sciences, Hydropower, Escapement

Abstract

Size-dependent mortality of migratory silver eels at a hydropower plant, and implications for escapement to the sea

Published

2010

17. Implementation of Environmental Management Systems in the Extraction of Construction Aggregates from Gravel Pit Lakes

Author

Serena Botta, Claudio Comoglio, Alberto Quaglino, and Andrea Torchia

Subjects

ISO 14001, Engineering, mining sector, Gravel pit, Ecology, business.industry, gravel pit lake, Environmental resource management, Problem statement, Legislation, Scientific literature, Environmental management systems, environmental review, Natural resource, Pollution, Identification (information), Environmental management system, business, Non-renewable resource

Abstract

Problem statement: Mining operations are strategic and essential industrial activities which rely on the use of non renewable natural resources, causing several relevant interactions with the environment. Approach: The need to perform in compliance with even more stringent environmental legislation and to satisfy different stakeholders demands and pressures, is progressively leading the mining sector towards the implementation of Environmental Management Systems (EMS). However scientific literature outlined a relevant research gap in the absence of specific technical guidelines to facilitate such voluntary environmentally responsible approach in the different sectors of mining. Results: Therefore the present study was focused on the extraction of construction aggregates from gravel pit lakes, sector characterized by peculiar operations and related environmental problems. Through the analysis of representative sites (located in Piedmont Region-NW Italy), where the environmental components of the interested territories, the equipments used and operations carried out, the main legal requirements, the environmental problems and monitoring systems were examined, the research identified environmental problems and practices which could be considered common to this sector and be taken into account during the EMS implementation. In particular the study, with reference to the ISO 14001 requirements, focused on the analysis and monitoring of the environmental aspects and to the identification of specific operational and monitoring procedures which should be defined by the organization within the EMS. Conclusion: Therefore the main results of the research presented in this study supplied specific technical elements to be used by the companies operating gravel pit lakes for a correct and exhaustive EMS implementation and represented a new contribution for a more widespread adoption of ISO 14001 in the mining sector.

Published

2009

18. Habitat indices for rivers: quantifying the impact of hydro-morphological alterations on the fish community

Author

Piotr Parasiewicz, M. Spairani, Daniele Stellin, Maria Cristina Bruno, Andrea Goltara, Claudio Comoglio, Mauro Carolli, Annunziato Siviglia, Guido Zolezzi, Bruno Boz, and Paolo Vezza

Subjects

Mountainous streams, Habitat indices, Fauna, Comunità ittica, Indice qualità habitat, Fluvial, Fiumi alpini, Fish community, Settore BIO/07 - ECOLOGIA, Hydropeaking, Torrenti montani, Produzione idroelettrica, Fish Community, Habitat Indices, Hydropower, Mountainous Streams, Earth and Planetary Sciences (all), Restoration ecology, Comunità ittiche, Hydrology, Mountain streams, Ecology, business.industry, Simulation modeling, Geography, Habitat destruction, Habitat, Scale (map), business, Indici di Habitat potenziale

Abstract

Habitat simulation models are effective tools which can be used to estimate spatial and temporal habitat availability for aquatic organisms, and to design and evaluate habitat restoration actions. Based on the meso-scale resolution, the present work proposes two indices to evaluate the spatial and temporal alteration of instream habitats. Firstly, the Index of Habitat Quantity (IHQ) describes the relative amount of habitat loss due to flow diversion, and, secondly, the Index of Habitat Stress Days (IHSD) measures the increase of continuous duration of events when habitat bottlenecks create stress to the fauna. Two case studies from the mountainous areas of Northern Italy are presented as applicatory examples. The achieved results indicate that (i) the meso-scale can be considered an appropriate scale resolution to link fish habitat requirements to fluvial morphological characteristics, and (ii) the proposed indices are flexible tools since they can capture both spatial and temporal alterations of habitat structure and can be applied to different kind of pressures (e.g., hydropower generation, hydropeaking).

Published

2015

19. The October 2000 flooding in Valle d'Aosta (Italy): Event description and land planning measures for the risk mitigation

Author

Franco Bonetto, Sara Ratto, and Claudio Comoglio

Subjects

Hydrology, geography.geographical_feature_category, business.industry, Drainage basin, Landslide, Land-use planning, Land planning, Valle d’Aosta, Debris, Geography, Thematic map, Flooding, Damages, business, Risk management, Sea level, Water Science and Technology

Abstract

On October 13–16th, 2000 heavy rainfalls in the Northwestern Italian Alps caused huge flooding and landslides with significant damages to houses and infrastructures and several life losses. In this paper a description of the main events that affected Valle d'Aosta's region and the subsequent land planning measures adopted for the risk mitigation are presented. After a first meteorological and hydrological framing, based on the data of the regional monitoring system (that pointed out rainfalls up to 236 mm in 24 h also in high‐altitude zones, because of the rise of the isotherm 0°C around 3000 m above sea level), the main effects of the event (extensive flooding, landslides, soil slips and debris flows) in the regional catchment of the Dora Baltea river are described. Through aerial and direct surveys those effects have been transferred into a thematic cartography within two months from the event, in order to have detailed elements for the technical, administrative and political land planning deci...

Published

2003

20. Applications of the MesoHABSIM Simulation Model

Author

Wiesław Wiśniewolski, Piotr Parasiewicz, Javier Gortázar, Joseph N. Rogers, Paolo Vezza, Claudio Comoglio, Mark A. Pegg, and Thomas Seager

Subjects

International level, Hydrology, Multivariate statistics, Aquatic species, Geography, Habitat, business.industry, Environmental resource management, %22">Fish , business

Abstract

The changing spatial distribution of a river's physical attributes due to flow variations and the aquatic species' biological response to these changes is the cornerstone for simulating habitat alterations and designing the respective restoration measures. MesoHABSIM is a modification of micro-scale models to support effective simulation of large spatial extents of riverscapes. It offers advantages, such as the incorporation of multivariate physical habitat attributes for entire fish communities and the habitat based assessment of hydrological time series. The model has been developed over the past decade and is applied broadly at the international level. This paper describes the application of MesoHABSIM and illustrates the methodology through examples of successful applications

Published

2013

21. Implementing environmental management systems in a cluster of municipalities: a case study

Author

Serena Botta and Claudio Comoglio

Subjects

Engineering, Ecology, business.industry, ISO 14001 and EMAS, media_common.quotation_subject, Environmental resource management, Environmental Management Systems, Certification, Environmental economics, Disease cluster, Pollution, Cluster Approach, Municipality, Local Sustainability, Order (exchange), Component (UML), Service (economics), Environmental management system, business, media_common

Abstract

Local authorities are showing an increasing interest in implementing Environmental Management Systems (EMS) according to ISO 14001/EMAS as a tool for better dealing with their environmental issues. However, to improve the status of an environmental component or the efficiency of an environmental service often exceeds the boundaries and the competences of a single municipality; furthermore EMS implementation can require significant human and financial resources which could not be faced by small organizations. In order to cope with the above problems a methodology for implementing an EMS in a cluster of municipalities is presented, with the aim of exploiting the possible synergies for sharing knowledge and resources and creating scaleeconomies to better deal with the environmental issues of the whole territory, both at cluster and at single municipality level. The proposed method was tested in a cluster of 33 small municipalities located in NW Italy, leading to the ISO 14001/EMAS certification of each organization. In this study the main methodological steps for implementing the proposed cluster approach and some significant outcomes of its application in the case study are presented.

Published

2013

22. The use of indicators and the role of environmental management systems for environmental performances improvement: a survey on ISO 14001 certified companies in the automotive sector

Author

Claudio Comoglio and Serena Botta

Subjects

ISO 14001, Engineering, Measure (data warehouse), Scope (project management), Renewable Energy, Sustainability and the Environment, business.industry, Strategy and Management, Automotive industry, Sample (statistics), Certification, Environmental economics, ISO 14031, Industrial and Manufacturing Engineering, Automotive sector, Environmental indicators, Order (exchange), Secondary sector of the economy, Environmental management system, Environmental performance improvement, Operations management, business, General Environmental Science

Abstract

The relationship between EMS implementation and environmental performances improvement is subject to increasing interest by international researchers but results obtained so far are not univocal. A critical issue is that ISO 14001 does not require companies to reach minimum levels of environmental performances (apart from legal compliance) nor does it supply methods to be used to measure continual improvement. A questionnaire-based survey on a sample of companies in NW Italy was carried out with the aim of investigating which operational performance indicators (according to ISO 14031) are used in their EMS, whether EMS implementation has contributed to an increased commitment towards environmental performance and what the entity of the achieved improvements is. The sample was made up of companies belonging to the same industrial sector (automotive) and with a consolidated EMS (ISO 14001 certified for at least three years). Results highlight that various environmental aspects are monitored in the EMS by means of a rather large number of indicators, but the most detailed ones (relative indicators) mainly refer to aspects where performances improvement means cost reductions (waste management and use of resources). The EMS implementation increases the number of companies committed (mean increase: 108.7%), as well as the number of environmental aspects involved and determines higher investments towards environmental improvement. The quantification of the improvements achieved was only provided by a limited number of companies, but data show that EMS determined positive effects in the environmental performances, although with highly heterogeneous values, varying from +16.9% (use of resources) to +42.7% (releases to water). For future research activities we recommend tailoring the sample of certified companies, limiting its scope to companies with a consolidated EMS and, where possible, to EMAS registered companies, in order to deal with publicly available validated data trends. Finally, in order to improve EMS efficiency, we recommend that companies carry out a specific design phase, in accordance with ISO 14031, aimed at identifying a proper set of indicators to adequately assess and monitor their environmental performances.

Published

2012

23. Implementing the environmental and social policies of a municipality through an integrated management system: theoretical framework and case study

Author

Serena Botta, Claudio Comoglio, Irene Petrosillo, Botta, Serena, Comoglio, Claudio, and Petrosillo, Irene

Subjects

Fluid Flow and Transfer Processes, Social accounting, Sustainable development, ISO 14001, municipality, Integrated management system, Geography, Planning and Development, integrated management system, Management, Monitoring, Policy and Law, environmental management system, social accountability, Social issues, Social management, environmental management system, social accountability, integrated management system, municipality, ISO 14001, Environmental management system, Business, Inclusion (education), Environmental planning, General Environmental Science, Water Science and Technology

Abstract

Local authorities have an important role in improving the quality of life of their citizens by managing environmental and social issues for a sustainable development of the territory. While an increasing number of municipalities are implementing Environmental Management Systems (ISO14001-EMAS) to manage their environ- mental issues, standardised tools for social ones are still lacking. This paper proposes a theoretical framework for developing an Integrated Environmental and Social Management System through the inclusion of SA 8000 (Social Accountability) requirements with an innovative focus on citizens’ information and consultation and highlights the main outcomes of its application in a small Italian municipality.

Published

2012

24. The Mont Avic Natural Park - Management Supported by Scientific Research and EMS

Author

Claudio Comoglio, M. Bocca, L. Ganis, and Alessandro Nota

Subjects

lcsh:GE1-350, Geography, Ecology, business.industry, Natural park, Environmental resource management, lcsh:G1-922, Forestry, Management, Monitoring, Policy and Law, business, lcsh:Environmental sciences, lcsh:Geography (General), Nature and Landscape Conservation

Published

2009

25. Developing a green register of eco-labeled products in Romania

Author

Panainte-Lehăduş Mirela, Claudio Comoglio, Danu Marcela, Temea Antonina, Barsan Narcis, Nedeff Valentin, and Serena Botta

Subjects

Engineering, Product category, Environmental Engineering, Price difference, business.industry, environmental characteristics, green products, Management, Monitoring, Policy and Law, Environmental economics, cost, ecolabel, environmental characteristics, green products, Pollution, Product (business), Market research, Commerce, Order (exchange), cost, ecolabel, Ecolabel, Operational costs, business

Abstract

The green products market is growing up fast, but there is still a strong need to provide clear and verified information about their environmental performances in order to create a real consuming preference. The main preliminary results of a market survey conducted in Romania in 2010-2013 within the LIFE+ project -Promoting green products, aimed at evaluating the availability of eco-labeled products and at promoting their use, are presented in this paper. A national Green Register of type I eco-labeled products available in eight main Romanian supermarket chains was implemented and the main technical, environmental and financial characteristics were analysed for each product and product category. While the price difference between eco and non-eco products for the non-electric and non-electrical equipment products is very limited ( 13%) and still supports the widespread opinion that green products are more expensive. Further investigation is being carried out to draw a detailed comparison on the "real" costs of green products analysing their possible competitiveness in terms of operational costs an payback periods.