| Nome |
# |
|
Application of switchable hydrophilicity solvents for recycling multilayer packaging materials, file e1dcb339-5cde-7715-e053-1705fe0a6cc9
|
247
|
|
Backlighting the European Indium Recycling Potentials, file e1dcb331-4b54-7715-e053-1705fe0a6cc9
|
182
|
|
Urban mines of copper: Size and potential for recycling in the EU, file e1dcb331-34ae-7715-e053-1705fe0a6cc9
|
172
|
|
How to Assess the Carbon Footprint of a Large University? The Case Study of University of Bologna’s Multicampus Organization, file b2e8db2b-e20e-4480-928d-e418f83f88f9
|
170
|
|
Shedding Light on the Anthropogenic Europium Cycle in the EU–28. Marking Product Turnover and Energy Progress in the Lighting Sector, file e1dcb331-f11b-7715-e053-1705fe0a6cc9
|
166
|
|
Still edible wasted food from households: A regional Italian case study, file 9c1dbc62-a2df-450e-982b-7d74c4cb2df7
|
139
|
|
APPLICAZIONI DELLA METODOLOGIA LCA NEL CAMPO DELLA GESTIONE E DEL TRATTAMENTO DEI RIFIUTI, file e1dcb336-3f53-7715-e053-1705fe0a6cc9
|
126
|
|
Biogas to Syngas through the Combined Steam/Dry Reforming Process: An Environmental Impact Assessment, file e1dcb337-8709-7715-e053-1705fe0a6cc9
|
117
|
|
Catalytic Biorefining of Ethanol from Wine Waste to Butanol and Higher Alcohols: Modeling the Life Cycle Assessment and Process Design, file e1dcb338-b67f-7715-e053-1705fe0a6cc9
|
112
|
|
Environmental Impact of Meals: How Big Is the Carbon Footprint in the School Canteens?, file 2a152496-e20e-4b05-951d-88158f518a69
|
110
|
|
Environmental implications of future copper demand and supply in Europe, file e1dcb333-8885-7715-e053-1705fe0a6cc9
|
98
|
|
Backlighting the European Indium Recycling Potentials, file e1dcb331-555d-7715-e053-1705fe0a6cc9
|
97
|
|
Carbon Fibers Waste Recovery via Pyro-Gasification: Semi-Industrial Pilot Plant Testing and LCA, file cd58f048-f972-4bfb-b1d8-49c325e73659
|
84
|
|
Biomass Residues to Renewable Energy: A Life Cycle Perspective Applied at a Local Scale, file e1dcb32e-b572-7715-e053-1705fe0a6cc9
|
57
|
|
Material system analysis: Characterization of flows, stocks, and performance indicators of manganese, nickel, and natural graphite in the EU, 2012–2016, file e1dcb338-be37-7715-e053-1705fe0a6cc9
|
55
|
|
Influence of inorganic anions from atmospheric depositions on weathering steel corrosion and metal release, file e1dcb334-5f4f-7715-e053-1705fe0a6cc9
|
49
|
|
Life cycle assessment (Lca) of environmental and energy systems, file e1dcb338-fba1-7715-e053-1705fe0a6cc9
|
48
|
|
Material Flow Analysis of Aluminium, Copper, and Iron in the EU-28, file e1dcb332-4df2-7715-e053-1705fe0a6cc9
|
46
|
|
Recovering the “new twin”: Analysis of secondary neodymium sources and recycling potentials in Europe, file e1dcb334-3c3d-7715-e053-1705fe0a6cc9
|
43
|
|
Maleic anhydride from bio-based 1-butanol and furfural: a life cycle assessment at pilot scale, file 7e022876-1c63-4632-8928-b3c805271e07
|
34
|
|
Terephthalic acid from renewable sources: early-stage sustainability analysis of a bio-PET precursor, file e1dcb335-10b0-7715-e053-1705fe0a6cc9
|
34
|
|
Exploring future copper demand, recycling and associated greenhouse gas emissions in the EU-28, file 3b24cdf0-cb1b-4cc5-8d05-0882458c8e95
|
29
|
|
Environmental sustainability assessment of organic vineyard practices from a life cycle perspective, file e1dcb339-6da5-7715-e053-1705fe0a6cc9
|
28
|
|
Copper demand and supply in the EU. Scenarios for recycling improvements, file e1dcb333-3db5-7715-e053-1705fe0a6cc9
|
23
|
|
Combining the highest degradation efficiency with the lowest environmental impact in zinc oxide based photocatalytic systems, file 7a66c579-6a6a-4593-b6d1-cd8f2c87e421
|
20
|
|
null, file e1dcb330-97f1-7715-e053-1705fe0a6cc9
|
18
|
|
Analisi dei flussi e delle reserve di indio in Europa, file e1dcb333-9dbd-7715-e053-1705fe0a6cc9
|
18
|
|
Airsense-to-act: A concept paper for covid-19 countermeasures based on artificial intelligence algorithms and multi-source data processing, file e1dcb339-2158-7715-e053-1705fe0a6cc9
|
18
|
|
Shedding Light on the Anthropogenic Europium Cycle in the EU–28. Marking Product Turnover and Energy Progress in the Lighting Sector, file e1dcb331-ad05-7715-e053-1705fe0a6cc9
|
17
|
|
Bioenergy with carbon emissions capture and utilisation towards GHG neutrality: Power-to-Gas storage via hydrothermal gasification, file e1dcb336-0eab-7715-e053-1705fe0a6cc9
|
17
|
|
Phosphorous flow analysis and resource circularity at the province level in north Italy, file f8f9ed40-ef43-4df3-94ec-ac0125b25eb6
|
17
|
|
Airborne transmission route of covid-19: Why 2 meters/6 feet of inter-personal distance could not be enough, file e1dcb335-932b-7715-e053-1705fe0a6cc9
|
16
|
|
Environmental analysis of crop rotations through the application of the Cereal Unit approach, file e1dcb336-be9d-7715-e053-1705fe0a6cc9
|
15
|
|
Glycidol syntheses and valorizations: boosting the glycerol biorefinery, file e1dcb33a-107e-7715-e053-1705fe0a6cc9
|
14
|
|
Potential role of particulate matter in the spreading of COVID-19 in Northern Italy: first observational study based on initial epidemic diffusion, file e1dcb335-99c6-7715-e053-1705fe0a6cc9
|
13
|
|
The role of carbon capture, utilization, and storage for economic pathways that limit global warming to below 1.5°C, file 74e35800-732a-492c-85ac-02642f78ffcb
|
12
|
|
Urban mining: analisi delle riserve in uso e delle implicazioni ambientali associate al recupero di metalli essenziali nel settore energetico, file e1dcb333-0f62-7715-e053-1705fe0a6cc9
|
12
|
|
Catalytic Biorefining of Ethanol from Wine Waste to Butanol and Higher Alcohols: Modeling the Life Cycle Assessment and Process Design, file e1dcb332-0bb4-7715-e053-1705fe0a6cc9
|
11
|
|
The “SQUIID claim”: A novel LCA-based indicator for food dishes, file 5fb67a13-a178-4770-b94f-3a979da5363d
|
10
|
|
Influence of inorganic anions from atmospheric depositions on weathering steel corrosion and metal release, file e1dcb334-1230-7715-e053-1705fe0a6cc9
|
8
|
|
Maleic anhydride from bio-based 1-butanol and furfural: a life cycle assessment at pilot scale, file a7482608-f840-4cb6-be38-4b944b229f24
|
7
|
|
Potential for improving neodymium and europium recycling in the EU, file e1dcb330-4fc4-7715-e053-1705fe0a6cc9
|
7
|
|
Potentials for GHG emission reduction associated with the Circular Economy. The anthropogenic copper cycle, file e1dcb333-a0ff-7715-e053-1705fe0a6cc9
|
7
|
|
Prospective life cycle assessment for the full valorization of anchovy fillet leftovers: The LimoFish process, file 08a54254-ae78-4113-9850-a89a4179ec1f
|
6
|
|
The role of carbon capture, utilization, and storage for economic pathways that limit global warming to below 1.5°C, file 5472dd25-3914-4199-9a59-c046cdad5254
|
6
|
|
Application of life cycle assessment to high quality-soil conditioner production from biowaste, file 1ea7aa14-9044-4e2f-ad52-e5a271cab26e
|
5
|
|
ICP-MS triple quadrupole as analytical technique to define trace and ultra-trace fingerprint of extra virgin olive oil, file 4139fa99-02b0-4187-a7e5-1d2564441159
|
5
|
|
Il ciclo antropogenico dell’europio e la domanda di risorse critiche nel settore dell’illuminazione, file e1dcb333-f10b-7715-e053-1705fe0a6cc9
|
5
|
|
Still edible wasted food from households: A regional Italian case study, file ef3faf56-1206-4743-8a61-e5c4fc284e59
|
4
|
|
Phosphorous flow analysis and resource circularity at the province level in north Italy, file cc031d12-34c2-4537-af91-ec3abe4cdf79
|
3
|
|
null, file e1dcb32c-e285-7715-e053-1705fe0a6cc9
|
3
|
|
Nexus analysis and life cycle assessment of regional water supply systems: A case study from Italy, file e9bab078-1166-4e92-924d-cc7b8b01b96b
|
3
|
|
ICP-MS triple quadrupole as analytical technique to define trace and ultra-trace fingerprint of extra virgin olive oil, file f6bb3b08-4594-4efa-9b14-06ccc3511aec
|
3
|
|
Molecular catalysed Guerbet reaction: Moving to the larger and the Greener through LCA and scale up simulation approaches, file 227ea8ba-975b-499c-bb18-32d30ce21237
|
2
|
|
Life Cycle Assessment (LCA) of a Bio-Fuel Cell Fed with Waste Biomass: Potential for Scale-Up and Process Optimization, file 7c1c6388-b360-419c-b50a-9b063281ba7e
|
2
|
|
Prospective life cycle assessment for the full valorization of anchovy fillet leftovers: The LimoFish process, file 9d4bc843-bd3c-436a-82f1-37e3e1d8e7af
|
2
|
|
Particulate Matter and Weathering Steel: a design of experiment to explore its influence on the corrosion process, file e1dcb32f-19c1-7715-e053-1705fe0a6cc9
|
2
|
|
Effect of fuel quality classes on the emissions of a residential wood pellet stove, file e1dcb330-72fb-7715-e053-1705fe0a6cc9
|
2
|
|
The QUMEC project: Urban mines and the metal-energy-climate change nexus, file e1dcb332-257b-7715-e053-1705fe0a6cc9
|
2
|
|
MFA e LCA applicate a risorse “critiche” nel settore dell’illuminazione: l'esempio dell'europio, file e1dcb332-3240-7715-e053-1705fe0a6cc9
|
2
|
|
Influence of inorganic anions from atmospheric depositions on weathering steel corrosion and metal release, file e1dcb333-dcc5-7715-e053-1705fe0a6cc9
|
2
|
|
SARS-Cov-2RNA found on particulate matter of Bergamo in Northern Italy: First evidence, file e1dcb335-b80a-7715-e053-1705fe0a6cc9
|
2
|
|
null, file e1dcb335-e235-7715-e053-1705fe0a6cc9
|
2
|
|
Molecular catalysed Guerbet reaction: Moving to the larger and the Greener through LCA and scale up simulation approaches, file f126500e-827f-4d81-8dd7-cf1028a58190
|
2
|
|
The role of outdoor and indoor air quality in the spread of SARS-CoV-2: Overview and recommendations by the research group on COVID-19 and particulate matter (RESCOP commission), file 48bd9706-edec-4b9e-8fba-279bce17fb6f
|
1
|
|
Carbon Fibers Waste Recovery via Pyro-Gasification: Semi-Industrial Pilot Plant Testing and LCA, file 6c9a7ff0-bc1d-46db-8490-b6e5693f526d
|
1
|
|
Life Cycle Assessment (LCA) of a Bio-Fuel Cell Fed with Waste Biomass: Potential for Scale-Up and Process Optimization, file bede8889-a2ac-4129-acc1-62e01c73b6f3
|
1
|
|
Strategie di sviluppo industriale in una prospettiva di Green Economy, file e1dcb32c-2ba6-7715-e053-1705fe0a6cc9
|
1
|
|
Source apportionment study based on selective wind direction sampling, file e1dcb32c-5036-7715-e053-1705fe0a6cc9
|
1
|
|
Evaluation of non-steady state condition contribution to the total emissions of residential wood pellet stove, file e1dcb32c-ca92-7715-e053-1705fe0a6cc9
|
1
|
|
null, file e1dcb32c-caf4-7715-e053-1705fe0a6cc9
|
1
|
|
The environmental impact of an MSW incinerator: 15 years of monitoring, file e1dcb32d-1e3a-7715-e053-1705fe0a6cc9
|
1
|
|
Emission characterization of pellet stoves in non-standard operations, file e1dcb32d-5628-7715-e053-1705fe0a6cc9
|
1
|
|
Study of bottom ash recovery by means of aging and mechanical sorting processes, file e1dcb32d-bd48-7715-e053-1705fe0a6cc9
|
1
|
|
null, file e1dcb32d-bf8f-7715-e053-1705fe0a6cc9
|
1
|
|
Life cycle inventory improvement in the pharmaceutical sector: Assessment of the sustainability combining PMI and LCA tools, file e1dcb32d-edd4-7715-e053-1705fe0a6cc9
|
1
|
|
Butadiene from biomass, a life cycle perspective to address sustainability in the chemical industry, file e1dcb32d-eddd-7715-e053-1705fe0a6cc9
|
1
|
|
Towards a closure of the European copper cycle: scenarios and environmental implications, file e1dcb330-8408-7715-e053-1705fe0a6cc9
|
1
|
|
null, file e1dcb330-8556-7715-e053-1705fe0a6cc9
|
1
|
|
BIOCHAR IN CULTIVATED SOILS AND RIPARIAN BUFFER ZONES: CHEMICAL CHARACTERIZATION, SORPTION CAPABILITY AND CARBON ANALYSIS., file e1dcb331-13dd-7715-e053-1705fe0a6cc9
|
1
|
|
A new porous hybrid material to capture ultra-fine particles., file e1dcb331-13df-7715-e053-1705fe0a6cc9
|
1
|
|
Acetonitrile from Bioethanol Ammoxidation: Process Design from the Grass-Roots and Life Cycle Analysis, file e1dcb331-66ce-7715-e053-1705fe0a6cc9
|
1
|
|
Fossil vs. Renewable Sources for Chemicals Production: A new Process for the Production of Acetonitrile from Bioethanol Compared with the Sohio Process, file e1dcb332-0776-7715-e053-1705fe0a6cc9
|
1
|
|
Terephthalic acid from renewable sources: early-stage sustainability analysis of a bio-PET precursor, file e1dcb333-4e5c-7715-e053-1705fe0a6cc9
|
1
|
|
null, file e1dcb334-0e85-7715-e053-1705fe0a6cc9
|
1
|
|
Potentials for GHG emissions reduction in the Circular Economy: the anthropogenic copper cycle, file e1dcb336-b331-7715-e053-1705fe0a6cc9
|
1
|
|
Application of the Life Cycle Assessment to a vermicomposting process: an innovative pathway to produce high-quality soil conditioner, file f93c5d70-31fa-4ea0-bec9-511678c629e4
|
1
|
| Totale |
2.611 |