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Improving the Smart Control of Air Pollution in Europe

Livrables

Report on challenges and opportunities in iSCAPE cities

This report will highlight the air quality and climate change problems in the implementing cities. This deliverable is an output of Task 1.1.

A database and report for the baseline environmental and socio-economic assessment

The database will be used for the evaluation in Task 5.3. This deliverable is an output of Task 5.1.

Report on local stakeholders engagement

A detailed report on technical solutions that have the potential to influence those personal choices which reduce air pollution. This will be an output of Task 4.4

Detailed report for the assessment of air quality and UHI in EU selected cities preinfrastructural solutions

The report will deliver maps of high resolutions whenever possible of pollutants and greenhouse gases of the target cities to serve as a reference against which to evaluate changes. This deliverable is an output of Task 6.1.

Detailed report based on numerical simulation of the effect of PCSs at the urban level

This report will highlight the effect of some interventions on mitigating the effect of UHI in the target cities. This deliverable is an output of Task 6.3.

Sensor monitoring experiences and technological innovations

This report will provide guidelines on sensor utilisation for outdoor and indoor monitoring of pollution. It will also integrate the originally planned aspects of the deliverable 7.10 (Potentials and prospects with technological integration with other EU funded platforms, a report, outlining synergies with other EU funded platforms in order to maximise the exploitation of the iSCAPE’s technological outcomes) into one comprehensive report as an output of Task 7.4.

Implementation plans for each partner city

These plans will give detail how, when, where and by whom the physical and behavioural interventions or field campaigns will be carried out. This deliverable is an output of Task 2.2.1.

Stakeholder Management Plan

This document will detail how the Living Labs will be managed and highlighting communication lines linking the consortium and the local stakeholders. This deliverable is an output of Task 2.2.3.

Behavioural simulations design aspects report

A detailed report on the behavioural simulations design aspects for environmental analysis will be provided based on the outcomes of the Task 4.2.2.

Report on deployment of neighbourhood interventions

This report will detail the functionality and effectiveness of neighbourhood interventions. This deliverable is an output of Task 3.5.

Report on iSCAPE socio-economic impact assessment methodology

This deliverable will describe the methodological framework to be used for assessing the socio-economic impact of iSCAPE outputs and pilot and for developing a strategic portfolio choice framework. This deliverable is an output of Task 5.5.

Exploitation strategy

On the basis of first interim research results, a strategy will be defined to explore potential further development and implementation of the project deliverables by identifying the ones that can be utilised in generalising legislative efforts in national or regional scale as well identifying targeted markets and tasks that could be carried out with innovative living labs. The strategy will be updated twice (in Month 18 and 36) to integrate project outcomes (MS11). The first (Month 6) and second (Month 18) versions are led by JRC and the third (Month 36) is led by UCD. It is related to Task 7.1.

Experiences from photocatalytic films in urban domains

This will be in the form of a report on the use of photocatalytic coatings on residential and commercial building facades in urban environments for different climatic conditions. This output is related to Task 7.4.

Detailed work plan for first six months

In order to avoid a slow start of activities a detailed work plan for the first six months will be developed during the kick-off meeting with clearly assigned tasks to all involved partners. This deliverable is an output of Task 9.1.

Citizen science communities report

A detailed report on the findings of the citizen science workshops to influence policy changes. This will be an output of Task 4.4

Report on deployment of urban interventions

This report will detail the potential functionality and effectiveness of urban interventions. This deliverable is an output of Task 3.6.

Report on environmental effects of behavioural actions

A detailed report on environmental effects of behavioural actions identified in WP1. This is an outcome of the Task 4.1.

Report on technical advancements for photocatalytic coatings

A detailed report on technical advancements for photocatalytic coatings for building facades. This deliverable is an output of Task 3.5.

Detailed report of the effect of PCs on air quality in the future CC (2050) in the target cities

The report will contain also information on how the PCs implementation in other EU cities would be effective. This deliverable is an output of Task 6.4.2.

Report of climate effectiveness of urban interventions

This report will detail the climate effectiveness of urban interventions This deliverable is an output of Task 3.6.

Report on Behavioural interventions

This report will present through a state-of-the-art overview a comprehensive summary of behavioural interventions which are possible and provide suggestions for their testing and implementation in WP4. This deliverable is an output of Task 1.3.

Report on photocatalytic coating

This report will detail the functionality and effectiveness of photocatalytic coating in cities over three representative annual periods. This deliverable is an output of Task 3.5.

Generalisation summary of infrastructural recommendations for urban policy makers including stakeholder feedback

This report will present final recommendations on infrastructural interventions after taking feedback from partners, stakeholders, urban planners, regulator and industrial needs. This deliverable is an output of Task 7.2. This deliverable will also integrate the originally planned aspects of the deliverable 7.6 (Identification of episodes liaising air quality with climate change) into one comprehensive report as an outcome of Task 7.2

Detailed report on local meteorological conditions

This report will include scenarios for meteorological conditions (temperature, humidity, solar radiation, precipitation, wind speed and direction) currently and in the future (for the year 2050) with and without the proposed PCSs for the target cities. This deliverable is an output of Task 6.4.1.

Behavioural recommendations including personal exposure estimates and health impacts

This will be in the form of a comprehensive report, integrating the originally planned aspects of deliverable 7.3 (Input-output link with an atmospheric dispersion model (outdoor concentrations); deliverable 7.4 (Personal exposure estimate improvement), and deliverable 7.5 (Translating environmental effects into human health). This output is related to Task 7.3.

Living Labs for Air quality knowledge and policy package

This deliverable 1) creates a compilation of the curated knowledge related to Living Labs in the form of publications/guidebooks and policy papers, and 2) reports on activities performed to transfer this knowledge (webinars, workshops, etc.), participating in World Bank relevant events (in WP8), publications. This deliverable also integrates the originally planned aspects of the deliverable 7.7 (Geographical harmonisation and generalisation of the iSCAPE operational domains, a set of policy briefs) into one comprehensive deliverable as an outcome of Task 7.5.

Air pollution and meteorology monitoring report

These reports will detail air pollution levels and meteorological conditions in the target cities. This deliverable is an output of Task 5.2. (Month 24 and Month 36)

Report on solutions at urban level

A detailed report on the implications of urban design for mitigating air pollution and improving the local climate. This deliverable is an output of Task 3.3.

Stakeholders analysis and risk assessment

This report will highlight barriers to the Living Labs and respective foreseen interventions in the six cities. This deliverable is an output of Task 2.1.

Plan for extending the life of Living Labs beyond iSCAPE

This deliverable is an output of Task 5.4.

Report on policy options for AQ and CC

A detailed report will be constructed delineating a series of policy options based on the target cities analysed. Efficacy of policy option for both AQ and CC will be demonstrated based on output of Task 4.3

Report on footprint of PCSs

A detailed report on the footprint of PCSs interventions identified in WP1 and their benefits at all spatial scales. This deliverable is an output of Task 3.2

Guidelines to promote passive methods for improving urban air quality in climate change scenarios

The guidelines will account for local settings, by considering the fundamental design of urban areas and the potential for low cost retrofits for some passive methods in existing areas in the built environment. This deliverable is an output of Task 1.2.

Strategic portfolio choice

This document will detail interventions characteristics and optimal use to provide a portfolio of PCSs for EU cities and beyond (developing countries) which require improvements in air quality. This deliverable is an output of Task 5.3.

Detailed report based on CFD simulations performed at neighbourhood scale

This report will show the effects on local air pollution due to PCs in the target cities. This deliverables is an output of Task 6.2.

Final scientific publication

iSCAPE intends to produce important research results on general understanding of the relationship between climate change and air pollution and the reduction of impacts through Passive Control Systems. A final scientific publication is planned. It will be decided in the due course of the project if it will be a book or a special issue of a scientific journal. This is an output of Task 8.4.

Communication and dissemination strategy

This document will determine how the project communicates with the outside world and how and will specifically address awareness-raising and knowledge sharing amongst the user and target groups. This will be an output of Task 8.1.

Community feedback reports

These reports will give a brief overview of stakeholder feedback on the suggested solutions. This deliverable is an output of Task 2.3.

Report on climate change and air quality

This report will present state-of-the-art of urban climate change simulations and contain the analysis of the cities in terms of AQ and CC in the various cities and their interaction. This deliverable is an output of Task 1.4.

Report on interventions

This report will detail an evaluation of the interventions. This deliverable is an output of Task 5.3.

Report on actions plans

This report sums up the implementation action taken in the different cities on the urban level. This deliverable is an output of Task 3.6.

Summary of air quality sensors and recommendations for application

This brief report will present state-of-the-art on air quality sensing and recommendations for their deployment in the field studies of the iSCAPE. This deliverable is an output of Task 1.5.

iSCAPE project website (initial launch)

Activation of iSCAPE project website as a key element for disseminating and communicating project activities and results. It is an output of Task 8.2.

Virtual Living Lab platform a

The Virtual Living Lab platform first iteration will disseminate the findings of the project and provide real-time access to the data collected with the low-cost and high-end monitoring stations. This will be an output of Task 8.3.

Virtual Living Lab Platform b

D8.3 b) Virtual Living Lab platform – Second iteration due M18. This release will contain extended functionalities and content, including the interactive map and information on the sensing kits from WP3.

High-end and low-cost sensing platforms Basic release

The high-end and low-cost monitoring stations will be developed. This deliverable is an output of Task 3.1. Sensors design is finished by M12 and field validation of the prototypes will start at the iSCAEPE living labs as part of MS4 - Development of measurement stations.

1st version Real time reporting system for monitoring with sensor technologies

Software platform is released internally to support the integration with the sensor platforms by M12.

Comprehensive release High-end and low-cost sensing platforms

This is the comprehensive release of teh high-end and low-cost sensing platforms prototypes developed in D3.1. Sensor will be manufactured, connected to the software platform and deployed at the iSCAPE living labs at M24 as part of MS6. A final validation of the sensors performance will be performed to support the exploitation strategy T7.4).

Prototype of a fully integrated behavioural (data-driven) simulator

Prototype development of a fully integrated data-driven simulator will be completed. A prototype and a technical document on the behaviour-based environmental simulation will be presented to the other WPs in the project. This deliverable will highlight the outcomes of the Task 4.2.3.

Public/2nd release of the platform supporting integration with Virtual Living Lab

Software platform is integrated with the Virtual Living Lab T8.3. Both are publicly released as part of MS5 - Data software platform first stable release

Data Management Plan

Definition on management of research data and how it will be made open. This deliverable is an output of Task 3.1

Recherche de données OpenAIRE...

Publications

Passive Control Systems for Improving Air Quality in Urban Street Canyons: The Origins, Current State of Art and Next Steps.

Auteurs: Gallagher, J., Broderick, B., Kumar, P., McNabola, A. & Pilla, F.
Publié dans: Issue AAAR 36th Annual Conference,, 2017

CFD characterization of street canyon heating by solar radiation on building walls

Auteurs: Pulvirenti, B.; Di Sabatino, S.
Publié dans: HARMO 2017 - 18th International Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes, Proceedings, Issue 2017, 2017, Page(s) 902-906

Urban Heat Island, Air Pollution, and Climate Change: The Bologna (IT) iSCAPE Case Study

Auteurs: Di Sabatino, S.; Barbano, F.; Barbieri, C.; Bratich, E.; Brunetti, A.F.; Drebs, A.; Kumar, P.; Jylhä, K.; Minguzzi, E.; Nardino, M.; Pilla, F.; Pulvirenti, B.; Torreggiani, L.; Valmassoi, A.
Publié dans: AMS 98th Annual Meeting, 2018

Assessing Environmental Impacts and Socioeconomic Benefits of Green Infrastructure: The Vantaa iSCAPE Case Study

Auteurs: Jylhä, K.; Drebs, A.; Mäkelä, A.; Fortelius, C.; Nurni, V.; Votsis, A.; Maidell-Münster, L.; Stibe, S.; Maerz, A.; Barrett, L.; Di Sabatino, S.; Barbano, F.; Brunetti, A.F.; Pulvirenti, B.; Kumar, P.; Pilla, F.
Publié dans: AMS 98th Annual Meeting, 2018

The Effect of Trees on Temperature Hot Spots within a Urban Heat Island: CFD Analysis of the Bologna Case Study

Auteurs: Prandini, F.; Pulvirenti, B.; Barbano, F.; Di Sabatino, S.; Brattich, E.; Drebs, A.; Kumar, P.; Jylhä, K.; Minguzzi, E.; Nardino, M.; Pilla, F.; Torreggiani, L.; Barbieri, C.
Publié dans: AMS 98th Annual Meeting, 2018

Mixing and transport within real street intersections: The case of Marylebone street, London (UK)

Auteurs: Di Sabatino, S.; Pulvirenti, B.; Kumar, P.
Publié dans: HARMO 2017 - 18th International Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes, Proceedings, Issue 2017, 2017, Page(s) 465-469

Harmonisation within atmospheric dispersion modelling for regulatory purposes 9-12 October 2017, Bologna, Italy

Auteurs: Di Sabatino, S.; Castelli, S.T.; Brattich, E.
Publié dans: HARMO 2017 - 18th International Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes, Proceedings, Issue 2017, 2017, Page(s) 3-4

Mechanisms of Ventilation in Real Street Canyon: The Bologna iSCAPE Case Study

Auteurs: Barbano, F.; Barbieri, C.; Brattich, E.; Brunetti, A.F.; Di Sabatino, S.; Drebs, A.; Kumar, P.; Minguzzi E.; Nardino, M; Pilla, F.; Pulvirenti, B.; Torreggiani, L.
Publié dans: AMS 98th Annual Meeting, 2017

Exposure Reduction by Green Vegetation Barriers in Near-Road Environments: The Guildford Iscape Case Study

Auteurs: Kumar, P.; Abhijith, K.V.; Di Sabatino, S.; Pulvirenti, B.; Pilla, F.; Gallagher, J.; McNabola, A.; Baldauf, R.; Broderick, B.; Drebs, A.; Jylhä , K.
Publié dans: AMS 98th Annual Meeting, 2018

Field investigations on exposure reduction by green infrastructure in near-road environments: the Guildford iSCAPE case study

Auteurs: Kumar, P., Ottosen, T. and Abhijith, K. V.
Publié dans: HARMO-19th International Conference on Harmonisation Within Atmospheric Dispersion Modelling for Regulatory Purposes, 2019

Green infrastructure and near-road air quality: Findings from the iSCAPE Project

Auteurs: Abhijith, K.V., Tiwari, A., Kumar, P.
Publié dans: AQE-2018, 2018

Data Analysis Methods for Low-cost Air Quality Sensors

Auteurs: Ottosen, T. and Kumar, P.
Publié dans: HARMO-19th International Conference on Harmonisation Within Atmospheric Dispersion Modelling for Regulatory Purposes, 2019

Modelling of pollutant reduction by vegetation in open road conditions

Auteurs: Abhijith, K.V., and Kumar, P.
Publié dans: HARMO-18th International Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes, 2017

Relazione fra turbolenza atmosferica e qualità dell’aria in due street canyon nella città metropolitana di Bologna

Auteurs: Torreggiani L.; Barbano F.; Barbieri C.; Brattich E.; Deserti M.; Di Nicola F.; Di Sabatino S.; Minguzzi E.; Nardino M.; Prandini F.; Pulvirenti B.; Valmassoi A.
Publié dans: PM2018 Convegno Nazionale sul Particolato Atmosferico Libro degli Abstract, Issue 1, 2018, Page(s) 18

Real-time sensors for indoor air monitoring and challenges ahead in deploying them to urban buildings

Auteurs: Prashant Kumar, Andreas N. Skouloudis, Margaret Bell, Mar Viana, M. Cristina Carotta, George Biskos, Lidia Morawska
Publié dans: Science of The Total Environment, Issue 560-561, 2016, Page(s) 150-159, ISSN 0048-9697
DOI: 10.1016/j.scitotenv.2016.04.032

Spatially distributed potential evapotranspiration modeling and climate projections

Auteurs: Salem S. Gharbia, Trevor Smullen, Laurence Gill, Paul Johnston, Francesco Pilla
Publié dans: Science of The Total Environment, Issue 633, 2018, Page(s) 571-592, ISSN 0048-9697
DOI: 10.1016/j.scitotenv.2018.03.208

The interrelationship of green infrastructure and natural capital

Auteurs: Jonathan Chenoweth, Andrew R. Anderson, Prashant Kumar, W.F. Hunt, Sarah Jane Chimbwandira, Trisha L.C. Moore
Publié dans: Land Use Policy, Issue 75, 2018, Page(s) 137-144, ISSN 0264-8377
DOI: 10.1016/j.landusepol.2018.03.021

Pro-Environmental Potential in Activity-Travel Routine of Individuals: A Data Driven Computational Algorithm

Auteurs: Shiraz Ahmed, Muhammand Adnan, Davy Janssens, Ansar-ul-Haque Yasar, Prashant Kumar, Elhadi M. Shakshuki
Publié dans: Procedia Computer Science, Issue 130, 2018, Page(s) 541-548, ISSN 1877-0509
DOI: 10.1016/j.procs.2018.04.079

Field investigations for evaluating green infrastructure effects on air quality in open-road conditions

Auteurs: K.V. Abhijith, Prashant Kumar
Publié dans: Atmospheric Environment, Issue 201, 2019, Page(s) 132-147, ISSN 1352-2310
DOI: 10.1016/j.atmosenv.2018.12.036

Considerations for evaluating green infrastructure impacts in microscale and macroscale air pollution dispersion models

Auteurs: Arvind Tiwari, Prashant Kumar, Richard Baldauf, K. Max Zhang, Francesco Pilla, Silvana Di Sabatino, Erika Brattich, Beatrice Pulvirenti
Publié dans: Science of The Total Environment, Issue 672, 2019, Page(s) 410-426, ISSN 0048-9697
DOI: 10.1016/j.scitotenv.2019.03.350

The nexus between air pollution, green infrastructure and human health

Auteurs: Prashant Kumar, Angela Druckman, John Gallagher, Birgitta Gatersleben, Sarah Allison, Theodore S. Eisenman, Uy Hoang, Sarkawt Hama, Arvind Tiwari, Ashish Sharma, K.V. Abhijith, Deepti Adlakha, Aonghus McNabola, Thomas Astell-Burt, Xiaoqi Feng, Anne C. Skeldon, Simon de Lusignan, Lidia Morawska
Publié dans: Environment International, Issue 133, 2019, Page(s) 105181, ISSN 0160-4120
DOI: 10.1016/j.envint.2019.105181

Urban trees, air quality, and asthma: An interdisciplinary review

Auteurs: Theodore S. Eisenman, Galina Churkina, Sunit P. Jariwala, Prashant Kumar, Gina S. Lovasi, Diane E. Pataki, Kate R. Weinberger, Thomas H. Whitlow
Publié dans: Landscape and Urban Planning, Issue 187, 2019, Page(s) 47-59, ISSN 0169-2046
DOI: 10.1016/j.landurbplan.2019.02.010

Dynamics of coarse and fine particle exposure in transport microenvironments

Auteurs: Prashant Kumar, Ioar Rivas, Anant Pratap Singh, Vikas Julius Ganesh, Monirupa Ananya, H. Christopher Frey
Publié dans: npj Climate and Atmospheric Science, Issue 1/1, 2018, ISSN 2397-3722
DOI: 10.1038/s41612-018-0023-y

The influence of the vegetation cycle on the mitigation of air pollution by a deciduous roadside hedge

Auteurs: Thor-Bjørn Ottosen, Prashant Kumar
Publié dans: Sustainable Cities and Society, Issue 53, 2020, Page(s) 101919, ISSN 2210-6707
DOI: 10.1016/j.scs.2019.101919

A citizen science approach for enhancing public understanding of air pollution

Auteurs: Sachit Mahajan, Prashant Kumar, Janaina Antonino Pinto, Agnese Riccetti, Katinka Schaaf, Guillem Camprodon, Viktor Smári, Antonella Passani, Giuseppe Forino
Publié dans: Sustainable Cities and Society, Issue 52, 2020, Page(s) 101800, ISSN 2210-6707
DOI: 10.1016/j.scs.2019.101800

Applications of low-cost sensing technologies for air quality monitoring and exposure assessment: How far have they gone?

Auteurs: Lidia Morawska, Phong K. Thai, Xiaoting Liu, Akwasi Asumadu-Sakyi, Godwin Ayoko, Alena Bartonova, Andrea Bedini, Fahe Chai, Bryce Christensen, Matthew Dunbabin, Jian Gao, Gayle S.W. Hagler, Rohan Jayaratne, Prashant Kumar, Alexis K.H. Lau, Peter K.K. Louie, Mandana Mazaheri, Zhi Ning, Nunzio Motta, Ben Mullins, Md Mahmudur Rahman, Zoran Ristovski, Mahnaz Shafiei, Dian Tjondronegoro, Dane Westerdah
Publié dans: Environment International, Issue 116, 2018, Page(s) 286-299, ISSN 0160-4120
DOI: 10.1016/j.envint.2018.04.018

Outlier detection and gap filling methodologies for low-cost air quality measurements

Auteurs: Thor-Bjørn Ottosen, Prashant Kumar
Publié dans: Environmental Science: Processes & Impacts, Issue 21/4, 2019, Page(s) 701-713, ISSN 2050-7887
DOI: 10.1039/c8em00593a

Planning for green infrastructure: The spatial effects of parks, forests, and fields on Helsinki's apartment prices

Auteurs: Athanasios Votsis
Publié dans: Ecological Economics, Issue 132, 2017, Page(s) 279-289, ISSN 0921-8009
DOI: 10.1016/j.ecolecon.2016.09.029

The drag force distribution within regular arrays of cubes and its relation to cross ventilation – Theoretical and experimental analyses

Auteurs: Riccardo Buccolieri, Mats Sandberg, Hans Wigö, Silvana Di Sabatino
Publié dans: Journal of Wind Engineering and Industrial Aerodynamics, Issue 189, 2019, Page(s) 91-103, ISSN 0167-6105
DOI: 10.1016/j.jweia.2019.03.022

Regional Assessment of Temperature-Related Mortality in Finland

Auteurs: Reija Ruuhela,Otto Hyvärinen,Kirsti Jylhä
Publié dans: International Journal of Environmental Research and Public Health, Issue 15/3, 2018, Page(s) 406, ISSN 1660-4601
DOI: 10.3390/ijerph15030406

Scale-adaptive morphometric analysis for urban air quality and ventilation applications

Auteurs: Laura S. Leo, Riccardo Buccolieri, Silvana Di Sabatino
Publié dans: Building Research & Information, Issue 46/8, 2018, Page(s) 931-951, ISSN 0961-3218
DOI: 10.1080/09613218.2018.1501797

Estimating pro-environmental potential for the development of mobility-based informational intervention: a data-driven algorithm

Auteurs: Shiraz Ahmed, Muhammad Adnan, Davy Janssens, Erika Brattich, Ansar-ul-Haque Yasar, Prashant Kumar, Silvana di Sabatino, Elhadi M. Shakshuki
Publié dans: Personal and Ubiquitous Computing, Issue 23/5-6, 2019, Page(s) 653-668, ISSN 1617-4909
DOI: 10.1007/s00779-018-1187-5

Determinants of Pro-Environmental Activity-Travel Behavior Using GPS-Based Application and SEM Approach

Auteurs: Muhammad Adnan, Shiraz Ahmed, Elhadi M. Shakshuki, Ansar-Ul-Haque Yasar
Publié dans: Procedia Computer Science, Issue 160, 2019, Page(s) 109-117, ISSN 1877-0509
DOI: 10.1016/j.procs.2019.09.450

Air Quality Based Informational Intervention Framework To Promote Healthy And Active School Travel

Auteurs: Shiraz Ahmed, Muhammad Adnan, Davy Janssens, Ansar-ul-Haque Yasar, Geert Wets
Publié dans: Procedia Computer Science, Issue 141, 2018, Page(s) 382-389, ISSN 1877-0509
DOI: 10.1016/j.procs.2018.10.186

A route to school informational intervention for air pollution exposure reduction

Auteurs: Shiraz Ahmed, Muhammad Adnan, Davy Janssens, Geert Wets
Publié dans: Sustainable Cities and Society, Issue 53, 2020, Page(s) 101965, ISSN 2210-6707
DOI: 10.1016/j.scs.2019.101965

Integrated agent-based microsimulation framework for examining impacts of mobility-oriented policies

Auteurs: Muhammad Adnan, Fatma Outay, Shiraz Ahmed, Erika Brattich, Silvana di Sabatino, Davy Janssens
Publié dans: Personal and Ubiquitous Computing, Issue Personal and Ubiquitous Computing, 2020, ISSN 1617-4909
DOI: 10.1007/s00779-020-01363-w#citeas

Designing vegetation barriers for urban air pollution abatement: a practical review for appropriate plant species selection

Auteurs: Yendle Barwise, Prashant Kumar
Publié dans: npj Climate and Atmospheric Science, Issue 3/1, 2020, ISSN 2397-3722
DOI: 10.1038/s41612-020-0115-3

Integrated dispersion-deposition modelling for air pollutant reduction via green infrastructure at an urban scale

Auteurs: Arvind Tiwari, Prashant Kumar
Publié dans: Science of The Total Environment, Issue 723, 2020, Page(s) 138078, ISSN 0048-9697
DOI: 10.1016/j.scitotenv.2020.138078

A primary school driven initiative to influence commuting style for dropping-off and picking-up of pupils

Auteurs: Prashant Kumar, Hamid Omidvarborna, Francesco Pilla, Neil Lewin
Publié dans: Science of The Total Environment, 2020, Page(s) 138360, ISSN 0048-9697
DOI: 10.1016/j.scitotenv.2020.138360

Smart Citizen Kit and Station: An open environmental monitoring system for citizen participation and scientific experimentation

Auteurs: Guillem Camprodon, Óscar González, Víctor Barberán, Máximo Pérez, Viktor Smári, Miguel Ángel de Heras, Alejandro Bizzotto
Publié dans: HardwareX, Issue 6, 2019, Page(s) e00070, ISSN 2468-0672
DOI: 10.1016/j.ohx.2019.e00070

Impacts of town characteristics on the changing urban climate in Vantaa

Auteurs: Olli Saranko, Carl Fortelius, Kirsti Jylhä, Kimmo Ruosteenoja, Erika Brattich, Silvana Di Sabatino, Väinö Nurmi
Publié dans: Science of The Total Environment, Issue 727, 2020, Page(s) 138471, ISSN 0048-9697
DOI: 10.1016/j.scitotenv.2020.138471

Laboratory evaluation of particle-size selectivity of optical low-cost particulate matter sensors

Auteurs: Joel Kuula, Timo Mäkelä, Minna Aurela, Kimmo Teinilä, Samu Varjonen, Óscar González, Hilkka Timonen
Publié dans: Atmospheric Measurement Techniques, Issue 13/5, 2020, Page(s) 2413-2423, ISSN 1867-8548
DOI: 10.5194/amt-13-2413-2020

End-user perspective of low-cost sensors for outdoor air pollution monitoring

Auteurs: Aakash C. Rai, Prashant Kumar, Francesco Pilla, Andreas N. Skouloudis, Silvana Di Sabatino, Carlo Ratti, Ansar Yasar, David Rickerby
Publié dans: Science of The Total Environment, Issue 607-608, 2017, Page(s) 691-705, ISSN 0048-9697
DOI: 10.1016/j.scitotenv.2017.06.266

Future Impacts of the Reforestation Policy on the amospheric parameters: a sensitivity study over Ireland

Auteurs: Arianna Valmassoi, Salem Gharbia, Santa Stibe, Silvana Di Sabatino, Francesco Pilla
Publié dans: Procedia Computer Science, Issue 109, 2017, Page(s) 367-375, ISSN 1877-0509
DOI: 10.1016/j.procs.2017.05.403

Air quality considerations for stormwater green street design

Auteurs: Kathryn M. Shaneyfelt, Andrew R. Anderson, Prashant Kumar, William F. Hunt
Publié dans: Environmental Pollution, Issue 231, 2017, Page(s) 768-778, ISSN 0269-7491
DOI: 10.1016/j.envpol.2017.08.081

Air pollution abatement performances of green infrastructure in open road and built-up street canyon environments – A review

Auteurs: K.V. Abhijith, Prashant Kumar, John Gallagher, Aonghus McNabola, Richard Baldauf, Francesco Pilla, Brian Broderick, Silvana Di Sabatino, Beatrice Pulvirenti
Publié dans: Atmospheric Environment, Issue 162, 2017, Page(s) 71-86, ISSN 1352-2310
DOI: 10.1016/j.atmosenv.2017.05.014

Implementing Green Infrastructure for Air Pollution Abatement: General Recommendations for Management and Plant Species Selection

Auteurs: Kumar, P., Abhijith, K.V., Barwise, Y.
Publié dans: 2019

iSCAPE project findings (Improving the Smart Control of Air Pollution in Europe)

Auteurs: Sarkawt Hama, Prashant Kumar
Publié dans: 2019
DOI: 10.5281/zenodo.3817531

Progress in Local Scale Flow and Dispersion Modelling

Auteurs: Silvana Di Sabatino
Publié dans: Air Pollution Modeling and its Application XXV, 2018, Page(s) 257-267
DOI: 10.1007/978-3-319-57645-9_41