Community Research and Development Information Service - CORDIS


BRODISE Report Summary

Project ID: 642045
Funded under: H2020-EU.3.5.2.

Periodic Reporting for period 2 - BRODISE (BROWNFIELD Decontamination In Southern Europe. Preparing PCP to R+D for efficient, cost effective and innovative solutions for brownfields decontamination)

Reporting period: 2016-02-01 to 2016-09-30

Summary of the context and overall objectives of the project

BRODISE has offered an opportunity to accelerate, rethink and redesign the investments and proceedings for local decontamination/remediation in Bilbao, Trieste and Seixal and mobilize other public purchasers and cities with similar problems in Soil Decontamination.

The project as well opened new possibilities leveraging the complementarity of the partners for bringing together the demand and creates a critical mass to acquire cost-effective solutions creating new jobs and opportunities for business growth in Europe, specially SMEs.

Technologists, environmental economists, lawyers, and PCP experts inside the team, have describe a real problem with technological demand that impact negatively on the urban regeneration. After BRODISE the public procurers are able to address a standardizing process for new cost-effective solutions to remediation/decontamination of brownfields through PCP.

The project has,
•Mobilize the responsible administration to accelerate the investments and proceedings
•Mobilize public and private purchasers so to create a network of common interests
•Create a critical mass to acquire cost-effective and innovative solutions, whilst creating new jobs and opportunities for business growth in Europe, with particular reference to SMEs;
•Create awareness and knowledge where BRODISE partners will guide and support the preparation of a joint PCP procurement pilot.

BRODISE has addressed to 294 public entities throughout Europe with contaminated soil and created a group of buyers with a dozen of them from to 6 Member States of the EU, the that 6 are first-tier cities, 3 are regional entities, and the rest minor cities of 100,000 inhabitants.

Work performed from the beginning of the project to the end of the period covered by the report and main results achieved so far

WP1 Quantitative and qualitative problem specific identification
1. Functional specifications technical work available for the future buyers, with a “Comparison Matrix”, to identify the problem
2. Hydrogeological and soil characterization summary study for each Brownfield to perform the functional requirements for PCP;
3. Socioeconomic Analysis Multi Stakeholder
4. Common functional and performance requirements for soil decontamination through PCP.

WP2. “Study of the state of the art techniques / technologies for soil decontamination”.
o 3 Technical dialogues to meet the market
o A report on patents related to soil decontamination
o State of the art of the tecniques for decontamination
o A report measuring the innovation gap on soil decontamination

WP3. “Develop the specific PCP procedure”.
• Report the PCP through strategic prospective structural analysis
• Report of the evaluation sheets and rank-ordered needs list
• Report of Barriers identification to the prosecution of the PCP. legal, finantial, environmental and procurement.
• Report of PCP structure design

WP4. “Training, awareness building and disseminating”.
• In order to transfer and mutual learning we have participated in different events and forums and held activities to transfer the knowledge acquired through the project
• It has been made dissemination about the results through different events around Europe and as a result we have sensibilize public buyers, encourage them to join our buyers group
• The researchers, SMEs, and enterprises that provide decontamination solutions have been invited to participate and discuss their technologies in an open technical dialogue

Progress beyond the state of the art and expected potential impact (including the socio-economic impact and the wider societal implications of the project so far)

Result 1 We have identified 47 factors influencing the remediation of Brownfields through PCP, of which these 5 are keys:
• Actions by EU;
• Incentives and supports in finding innovative solutions
• Final price of decontaminated brownfields
• Existence of successful models of soil decontamination
• Public R&D+i investments in contaminated soil remediation

There are 3 other factors that facilitate the process:
• Diffusion of BRODISE’s project and exploitation of its results
• Brownfields future uses
• Viability of joint PCP to find innovative solutions on the ground

Result 2 BRODISE has developed an integral Common Conceptual Model (CCM) with data standardization, and gap identification, as a “between sites-comparison matrix”s considering a)Pollutants distribution in soil, b)Hazardous waste delimitation c)Existing monitoring wells, and d) Land uses.
Also, the used “Common issues and needs” check-list is available.

Result 3 BRODISE made a Patent Analysis search of >20.000 patent families (20149), and by analyzing with a combination of 2 classification codes (B09C1/00 and A62D3/00) during 2010/2015 range, 4845 were obtained, and then focused with the group under the ‘B092101.CPC’ code, the total number of hits obtained was 346, which covers both patent applications as well as the patents granted.
The selected Key R&D (in situ)technologies were:
• Chemical Oxidation (ISCO)
• Chemical Reduction (ISCR)
• Enhanced Bioremediation
• Directional wells
It, confirmes the existence of scope for innovation

Result 4
BRODISE has shown that it is possible joint purchases of innovative technological solutions for the decontamination of brownfields, with different levels of complexity.
Government (State, Region, or Local bodies) acts both as a major driving force that shapes the industry and its direction from a legal and regulatory framework perspective, and as one of the largest customer segments for environmental remediation technologies in many regions, and specifically in the BRODISE countries

Result 5
BRODISE has developed the framework, main functional kind of requirements, and procedure to the ‘PCP for sustainable methods to decontaminate/remediate brownfields’, explaining how to do: a) Previous steps, b)Previous agreements of public buyers to join PCP, c) Specific functional requirements, d)Advertisements and Publications, e) Tender implementation, and d) The execution monitoring and performance evaluation

And BRODISE has published a help guideline.

Lessons learnt:

Lesson 1

There are many patented technologies, and not many available on the market, but it seems they are not efficiently applied, because of the price, time, and because they are not integrated into viable joint solutions for large areas. The most widespread solution is to dig and dump, but it is very inefficient for these large areas so we need on site solutions and 'in situ' for joint decontamination of heavy metals, hydrocarbons, PAHs, TPH, etc ... However, we note that the market is stagnant for the last decade and the cause is that there is not a demand capable of make profitable these technological developments.

Lesson 2 It is desirable to add demand to pull of technological development, but the objective conditions of each brownfield, in terms of presence of different pollutants, different levels of characterization and knowledge, and different intended uses (with different target decontamination levels), makes necessary to adopt common standards to implement the joint PCP.

Lesson 3
The level of knowledge and use of PCP by public entities is scarce, and most believe that it is not possible to engage in competition specific technological developments to solve the decontamination of their brownfields, for legal recruitment problems, or simply they do not know how.
Technologists and suppliers not think that PCP is a useful and applicable to new technological developments instrument.
Only by creating specific regulatory conditions for decontamination pilot projects in which public money is injected can trigger the development of innovative solutions.

Related information

Record Number: 193688 / Last updated on: 2017-01-24
Follow us on: RSS Facebook Twitter YouTube Managed by the EU Publications Office Top