Project journal
Modifier 10 December 2021
by Pietro L. Verga, UIA Expert

AIR BREAK Journal Nr. 1

air-break network cover photo
The Air-Break project seeks to reduce by 25% air-pollution in selected strategic areas of the City of Ferrara. The city lays in one of the most air-polluted areas in the World – the Po River Valley – and it is severely affected by serious environmental and health problems, including cancer mortality and acute myocardial infarction rates among the highest in Italy.

Human activity – and chiefly agriculture; industrial production; private heating; and motor vehicle traffic – is the core responsible for polluting emissions in Ferrara. Thereby, the proposal is designed to trigger an integrated process of awareness-raising and behavioural change accompanied by environmental and infrastructural upgrades.

In doing so, Air-Break plants 2000+ trees and shrubs with phyto-absorbing properties; enhances its cycling infrastructure with the installation of smart hubs and a smart bike lane; deploys a network of air-quality monitoring stations and sensors connected to an innovative, integrated digital system; and adopts a variety of citizens and stakeholders’ engagement strategies and tools.

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EXECUTIVE SUMMARY

This first Journal for the Air-Break Ferrara project intends to provide an overall introduction to the project aims and objectives, to frame it within the EU, national and local policy frameworks, as well as to analyse the progress of- and challenges to its implementation.

The city of Ferrara is located in the North-Eastern part of Emilia Romagna Region, along the Po River. The city hosts a population of ca. 132.000 inhabitants and for its beauty and cultural importance, it has been designated by UNESCO as a World Heritage Site. Nonetheless, Ferrara is also one of the most polluted cities in Italy, with severe environmental issues and a dramatically high incidence of respiratory diseases.

Therefore, the overarching goal of Air-Break is to reduce by 25% air pollution in selected areas of the city., and it will do so simultaneously deploying Nature-Based Solutions, infrastructural upgrades, technological equipment, and awareness-raising and citizens and stakeholders’ engagement initiatives.

At nearly mid-term of the project life, Air-Break’s implementation is steadily progressing and has been able to trigger and carry-out several citizens and stakeholders’ engagement initiatives; to deploy and start the activation of the local air-quality monitoring network; as well as to significantly advance in the executive design phases for the major physical investments.

Overall, the project did not suffer any major delay or deviation from the original work-plan, however its implementation faced a number of operational challenges, especially in terms of public procurement, participative approach for co-implementation, as well as communication with target beneficiaries.

STATE OF THE ART

Air-Break set the ambitious goal of reducing air-pollution by 25% in the most critical areas of the city. In doing so, the project will tackle air-quality issues through a set of integrated actions along four core strategic fields:

  • Nature-Based Solutions, with the plantation of phyto-absorbing species along the main access roads to the city, towards the simultaneous enhancement of the quality of the green environment, as well as of its resilience and capacity to mitigate air pollution.
  • Infrastructural upgrades, with the development of an innovative smart bike lane and multifunctional Smart Hubs, towards the promotion and enhancement of sustainable mobility opportunities.
  • Technological equipment, with the deployment of mobile air-quality monitoring stations, as well as of innovative digital services and gamification applications, towards the incentivisation of environmentally friendly behaviours.
  • Awareness-raising and citizens and stakeholders’ engagement, with the involvement of the local community in the monitoring of air-quality and establishment of a pro-active participatory process and co-design living labs, towards the strengthening of collective ownership of- and responsibility towards the project’s issues, actions, and goals.

Remarkably, these actions are conceived to pursue field-specific thematic objectives while – thanks to their integration under a holistic approach – simultaneously contributing to the achievement of a broader city-development strategy. 

Accordingly, from a field-specific point of view, the different actions deployed by Air-Break should contribute to the achievement of:

  • An established monitoring system based on existing regional data sources as well as on a new network of sensors deployed within the framework of Air-Break.
  • Improved air quality levels in selected critical areas of the city.
  • Increased number of people preferring soft mobility.
  • Reduced emissions by reducing car traffic and congested areas.
  • Improved commuting opportunities in strategic areas of the city.
  • Improved perception of well-being among citizens, especially in the areas targeted by the project investments.
  • Increased participation of citizens in the local social life as well as to urban planning decisions.
  • Enhanced evidence-based strategic decision-making power and capacity of the Municipality of Ferrara.

And ultimately, the successful implementation and integration of innovative and accessible smart technologies, nature-based solutions, and community engagement all contribute to the ongoing process of transformation of Ferrara into a smart and sustainable city.

Ferrara’s UIA project is aligned and coherent with thematic policy frameworks set at the EU, national, as well as regional levels. In this context, Air-Break not only addresses core environmental challenges, but – possibly more importantly – it also sets a new replicable operational approach towards the achievement of the goals and objectives defined at policy level.

European Level

The project intercepts the European policy framework on air-quality from multiple standpoints. In particular, Air-Break embraces the main objectives set by Directive 2008/50/EC of the European Parliament and of the Council. The Directive aims at defining objectives for air-quality to avoid, prevent, or reduce harmful effects on human health and the environment; monitoring and assessing air-quality in order to help combat air pollution; ensuring that information on air-quality is easily made available to the public; and ultimately improving air-quality. And this is precisely what Air-Break intends to achieve.

Under the overarching, signature aim of co-producing healthy clean commuting air spots in town, indeed, the project outlines a vision of the city where the pursue of good air-quality is the driver towards sustainable urban development and, eventually, enhanced well-being. In doing so, evidence-based decision-making and the proactive engagement and commitment of the local ecosystem of citizens and stakeholders are two essential components. Therefore, the strong focus of Air-Break on participatory air-quality monitoring, aimed not only at enhanced public awareness but also at the stimulation of virtuous and environmentally friendly behavioural change, ultimately towards the improvement of air quality in the city. Moreover, this approach is also aligned with the recommendations issued by EEA with Report 24/2018, which highlights how city scale actions have a considerable potential to address local sources of air pollution and encourage behavioural change to help improve air quality.

Additionally, a relevant share of co-creation activities deployed by Air-Break specifically target local children and youth, and this very well intercepts the recently launched European Youth Goals, and in particular Goal Number 10, which aims at:

  • Ensuring everyone including young people knows the effect of their actions on the environment.
  • Empowering the entire society especially young people to act as agents of change for environmental and sustainable development.
  • Ensuring everyone, especially young people, has access to eco-friendly infrastructure for living a more sustainable lifestyle.
  • Expanding research and innovation into eco-friendly solutions and technologies.

National and Regional Levels

At national level the regulatory framework is provided by Law Decree Nr. 155/2010, which adopts all EU regulations for the assessment and management of air-quality. Operational responsibilities to implement air-quality monitoring and evaluation and to identify and deploy management and mitigation measures are instead delegated to the regions, Emilia Romagna in the case of Ferrara.

At regional and local level, Air-Break fits within the scope and goals of three key policy instruments:

  • The Regional Integrated Air Plan (PAIR 2020) which aims at reducing air-polluting emissions in line with EU directives by adopting an integrated, multisectoral approach. focussed on sustainable urban management; within this framework, the focus on sustainable urban management, sustainable mobility and green communing is particularly relevant for Air-Break.
  • The Integrated Regional Plan for Transportation (PRIT2025), which aims to achieve 20% of bike mobility by 2025.
  • The city’s Sustainable Urban Mobility Plan (SUMP) aiming at a 20% reduction in traffic flows within the residential area, ultimately improving citizens quality of life.
Figure 1 - PAIR2020 Objectives. Source ARPAE
Figure 1 - PAIR2020 Objectives. Source ARPAE

 

AIR-BREAK PROGRESS UPDATES

At nearly mid-term of the project life, Air-Break’s implementation is steadily progressing. At the time of my writing (November 2021), the project has been able to trigger and carry-out several citizens and stakeholders’ engagement initiatives; to deploy and start the activation of the local air-quality monitoring network; as well as to significantly advance in the executive design phases for the major physical investments.

The involvement and active participation of the civil society is a fundamental aspect of any UIA project. Air-Break is not an exception, as a major variable to its final success is precisely related to the degree of citizens and stakeholders’ engagement in- and ownership of the actions and objectives of the project. In particular, Figure 2 illustrates the levels of engagement, media, and results expected by the project.

Figure 2 - The AIR-BREAK Approach
Figure 2 - The AIR-BREAK Approach: Levels of engagement, media and results expected. Source: Polytechnic of Milan, Air-Break Deliverable 7.2.3

Achieving such a high degree of engagement of the local civil society is always a crucial challenge, even without limitations to public gatherings. Doing so under the peculiar circumstances imposed by the COVID-19 pandemic added a further level of complexity to the implementation of Air-Break’s ambitious participatory programme.

In this context, Project Partners have been called to identify creative ways to rethink and reorganise the original plans and shift part of the participatory and co-creation activities to either a hybrid or full-online mode. Thereby, the largest part of the Air-Alliance’s participatory living-labs was indeed carried-out online via Google Meet, using Miro boards as a co-creation platform (see Figure 3).

MIRO Board
Figure 3 - Miro Board from an online co-creation workshop. Source: Polytechnic of Milan, Air-Break Deliverable 7.2.3

From an operational point of view, implementing this transition posed unexpected core challenges, especially in terms of how to reach, attract, and actively involve a wide and extremely diversified range of citizens and stakeholders within a new, immaterial arena.

The strategy adopted by the project was to design a set of co-creation pathways capable of attracting and involving actors and stakeholders already connected/linked with the activities of Air-Break’s core Work-Packages, and therefore to tap-on existing trust/collaboration relationships between project partners and the local socio-economic ecosystem. This allowed to identify a number of champions or ambassadors that helped spreading the project’s message within their own sub-communities, and ultimately to largely increase the critical mass of engaged participants. In doing so, the key proved to be identifying a specific, shared thematic goal/objective upon which to collaborate in a win-win situation, and to clearly convey to the target participants the potential gains and benefits of such a collaboration. The processes to involve, on the one hand, the mobility managers of local companies, and, on the other hand, local high schools are exemplary:

  • Mobility managers were approached with respect to a study on commuting patterns and the activation of gamification-based behavioural change campaigns. At first, however, the delegates from the project have been perceived as controllers or supervisors, and therefore companies have been reluctant to be engaged. Project partners, then, had to reconsider their approach and strategy and currently are working collaboratively with companies and mobility managers to structure a shared action-plan.
  • The project offered to several local high schools the opportunity to join the participatory air-quality monitoring programme, and to install in their premises one of the fifty low-cost air-quality sensors. In this case, the response from schools has been very positive and beyond the initial expectations. To date, indeed, nine high schools have incorporated Air-Break’s topics and activities in their curriculum. As part of their educational activities, students have been involved in workshops for the assembly of all of the fifty low-cost sensors and will work on air-quality monitoring and assessment throughout the school year.

Thanks to this approach, and under the guidance and leadership of Milan’s Polytechnic, between April and October 2021, Air-Break has been able to organise 24 single (chiefly online/hybrid) activities and the Air Fest – a 3 days of events and workshops in Ferrara – overall engaging a total of 783 attendees and more than 90 entities and organisations.

workshop with students
Figure 4 - A workshop on the assemblage of low-cost monitoring stations with high schools during the Air Fest in October. Source: the Author
co-creation lab
Figure 5 - A co-creation laboratory during the Air Fest in October. Source: the Author

 

system for air-quality monitoring. This new system on the one hand complements the 4 official third-level AQ monitoring stations managed by ARPAE[1] with a network of additional 14 second-level monitoring stations (hereinafter, Lab Service stations) and 50 first-level low-cost sensors; [2] on the other hand aims at providing real-time data on air-quality to both policy-makers and citizens under different formats and through different means/media.

As of early October 2021, twelve Lab Service stations have been installed and activated, while the low-cost sensors are being currently assembled by high-school students and will be ready in the coming months. Figure 6 shows the precise position of ARPAE and Lab Service monitoring stations (red and blue, respectively). The location of the low-cost sensors (green) is still not final because – apart from nine sensors that will be installed in the premises of the high schools that joined the programme – the project plans to distribute them to selected citizens and stakeholders that will be engaged in the near future.

 

AQ monitoring stations locations
Figure 6 - Air-Break Network of Air-Quality Monitoring Stations. Source: Dedagroup Public Services

At the time of my writing, both ARPAE and Lab Service monitoring stations are already feeding the Air-Break AQ monitoring network: all data collected in real-time from all the different the monitoring stations is gathered in a unique dataset stored on a dedicated server. From there, data can be extracted, elaborated, and shared to multiple targets through different media and platforms. In this initial stage, data are visible to a selected audience via the MUA’s GIS, and Figure 7 offers a preview of the information provided for each monitoring station, which include the concentrations of different pollutants and their evolution on a timeseries.

AQ data on GIS
Figure 7 - Visualisation of AQ Data on MUA's GIS. Source: MUA’s GIS, extraction by the Author

In the next stages of the project, the assembly and installation of all low-cost sensor will be completed, and air-quality data will be made publicly available. In this sense, Project Partners are currently working with citizens and stakeholders on how to share and visualise these information. In particular, the main operational challenges currently at stake concern:

  • The identification, design, and implementation of the most suitable means to convey the data. These include online tools such as a website and a mobile app; and physical devices such as totems, info-boards, monitors, as well as a 3D model of the city.
  • The definition of the level of detail, granularity, and frequency of data that will be displayed.
  • The design of the graphic/visual outputs of data according to each of the selected media/means.

The first step in this direction was taken during the Air Fest, with the organisation of a workshop with selected stakeholders and experts on “Humanising” Air-Quality Data: Towards a Participatory Design of Information. Project Partners are currently analysing the inputs from the workshop and are elaborating proposals to be discussed again with stakeholders. Following this process, the alpha version of the public website is expected by the end of 2021, and other forms of data visualisation during the course of year 2022.

 


[1] ARPAE (Agenzia Regionale per la Prevenzione, l'Ambiente e l'Energia dell´Emilia-Romagna) is Emilia Romagna’s regional agency for environment and energy

[2] AQ monitoring stations are categorised along three levels, according to their performance, accuracy, and economic value, with third-level stations ensuring the highest accuracy of data at the highest costs.

Figure 8 - Lab Service Monitoring Station Installed. Source: MUA
Figure 8 - Lab Service Monitoring Station Installed. Source: MUA

 

lowcostsensors
Figure 9 - Low-Cost Sensors. Source: the Author

Air-Break’s main investments encompass three key items: (1) the plantation of 2000 new trees and shrubs with phyto-absorption capacities; (2) the laying of a smart cycle lane; and (3) the installation of four Smart-Hubs. At the time of my writing, all three investments have advanced to the executive design stage and are therefore ready to be deployed on the ground.

Phyto-absorbing plants

The new plants are expected to contribute absorbing air pollutants (e.g., PM2,5 and PM10; nitrogen oxides; ozone), to mitigate heat-island phenomena, as well as to overall benefit urban drainage. In pursue of this threefold set of objectives, the project identified the vegetal species listed in Table 1, and – as shown in Figure 10 – defined their localisation in five strategic parts of the city, in particular along the main commuting axis, the city walls, and around the area of the trade fair.

 

Table 1 - Selected Trees and Shrubs. Source: the Author

Species

A large tree in a field

Description automatically generated with medium confidence

Carpinus Betulus

A picture containing flower, plant, white, silene

Description automatically generated

Hibiscus Syriacus

A picture containing tree, outdoor, plant, green

Description automatically generated

Celtis Australis

A picture containing outdoor, plant

Description automatically generated

Ilex Aquifolium

A picture containing outdoor, grass, plant, field

Description automatically generated

Cornus Sanguinea

A picture containing plant, flower, green, garden

Description automatically generated

Ligustrum Sp.

A large tree in a field

Description automatically generated with low confidence

Corylus Avellana

A tree in a field

Description automatically generated with low confidence

Morus Alba

A bush with green leaves

Description automatically generated with medium confidence

Eleagnus x Ebbingei

A tree with white flowers

Description automatically generated with medium confidence

Philadelphus Coronarius