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Jul 15 - Oct 15árboldedeci | A. PREPARATORY ACTIONS
A.1 DEVELOPMENT OF A METHODOLOGICAL DECISION TREEIn October 2015 a Methodological Decision Tree design is finished. This tree avoids an inefficient implementation of the project due to unexpected problems.
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Oct 15 - Dic 20 | B. IMPLEMENTATION ACTIONS
B.1 CHARACTERIZATION OF LOCAL SEWAGE SLUDGE AS BIOLOGICAL BY-PRODUCTTo evaluate the variability - in the time and along the treatment process- of composition of sludge from the selected wastewater treatment plant in terms of agronomic parameters, heavy metals, pathogens and organic pollutants, have been carried out the sewage sludge characterization in a large number of regional WWTP (January 2016), and selected the 5 WWTP for the exhaustive characterization of the sludge (June 2016)
B.2 CHARACTERIZATION OF LOCAL BIOMASS FLY ASH AS TECHNICAL BY-PRODUCTBefore being used as an adsorbing agent in the sludge management prototype and as an environmentally friendly construction material, ash sampling (January 2016) was carried out to perform the characterization tests for biomass ash (March 2016) and the first mortar mixes with ashes (April 2016), from which the first conclusions were obtained concerning the active surface of the ashes from biomass for the adsorption of metals (October 2016). A new sampling was carried out in February 2017.
B.3 VALIDATION IN LABORATORY OF THE REDUCTION OF HEAVY METALS CONTENTS IN SEWAGE SLUDGE USING BIOMASS FLY ASHTo test the capacity of local biomass fly ash as adsorbent agent of heavy metals content in local sewage sludge, the following tests were performed: Heavy metals adsorption trials (March 2016) Sewage sludge heavy metals reduction trials with fly ash (May 2016) Selective solubilization trials for heavy metals reduction in sewage sludge with fly ash (July 2016) Solid- liquid adsorption trials for heavy metals reduction in sewage sludge with fly ash(August 2016)
B.4 VALIDATION IN LABORATORY OF PROPOSED TREATMENTS FOR PATHOGENS AND ORGANIC POLLUTANTS IN SEWAGE SLUDGEBy assessing the adsorption capacity of organic pollutants from fly ash on solutions of organic compounds, establishing parameters that affect efficiency. To test on the cleaned sludge of heavy metals obtained in the previous action, trials on pathogens an organic contaminants reduction in sewage sludge by composting (August 2016) were be made. This compost has been applied to a corn trial.
B.5 DESIGN AND SETTING UP OF PROTOTYPE FOR REDUCING HEAVY METALS CONTENT IN SEWAGE SLUDGEPrototype that implements the conceptual design of a physicalchemical sewage sludge treatment process for reducing the heavy metal concentration among others pollutants and obtain an optimized sludge for a secondary fertilizer fabrication process with zero wastes involved. Visit to Aqualia Waste Water Treatment Plant (WWTP) in Lobón for the study of prototype instalation in February 2017 Technical meeting at CTAEX to set up a simulation of the prototype in February 2017 First tests of the adsorption process at pre-prototype scale in March 2017 Adsorcion pilot trials in May 2017 Fly ash conditioning trials in July 2017 Replication and transfer strategy of project results Cycle length and silt ash trials in December 2017 Replication and transfer strategy of project results B.6 INDUSTRIAL VALIDATION WITHIN A COMPOST FERTILIZERS MANUFACTURING PROCESSCompost fertilizer manufacturing process Application of compost fertilizer Fertilizing treatments' efficiency in corn Prototype first validation round Prototype second and third validation rounds Prototype fourth validation round Odour reduction trial in prototype iCirBus
B.7 VALIDATION IN FIELD OF ENVIRONMENTAL BENEFITS OF NEW FERTILIZERSAgricultural validation in corn in the summer of 2018 Corn harvest in the autumn of 2018 Agricultural validation on winter cereals in the autumn of 2018 Winter cereals' harvest in June 2019 Agricultural validation on corn season 2019 Fertilizing treatments´ efficiency in corn 2019 Agricultural validation on corn season 2020
B.8 ENVIRONMENTALLY FRIENDLY CHARACTERIZATION OF USED BIOMASS FLY ASH AND SLAG AS RECYCLABLE CONSTRUCTION MATERIALSUse of fly ash of biomass as lightweight artificial aggregates Concrete with artificial lightweight aggregate of fly ash from biomass Environmentally friendly characterization of concretes with added biomass fly ash
B.9 INDUSTRIAL VALIDATION OF NEW ENVIRONMENTALLY FRIENDLY CONSTRUCTION MATERIALSIndustrial validation of new construction materials
B.10 STUDY OF GLOBAL FEASIBILITY, IPR OPPORTUNITIES AND SUSTAINABILITY & EFFICIENCY MEASURESA technical meeting was held at ENCE for monitoring traceability of ash (Feb 2017)
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Jul 15 - Dic 20 | C. MONITORING OF THE IMPACT OF THE PROJECT ACTIONS
C.1 ASSESSMENT OF ENVIRONMENTAL IMPACTSAnalysis of the initial situation Environmental impact assessment
C.2 ASSESSMENT OF SOCIO-ECONOMIC AND POLICIES & REGULATIONS IMPACTSSocio-economic impact of the icirbus project
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Jul 15 - Dic 20 | D. PUBLIC AWARENESS AND DISSEMINATION OF RESULTS
NETWORKINGProject LIFE ANADRY visit - May 2017 Project H2020 SCREEN LAB visit - Apr 2018 Project Interreg SUDOE CEMOWAS2 visit - Jun 2019 Cooperation with the LIFE project Repolyuse - Jul 2020
ATTENDANCE AND PROJECT PRESENTATION TO CONFERENCES AND WORKSHOPSPresence in the Forum "The circular economy and its effects in the food chain" - Abr 2016 Life iCirBus-4 Industries project is presented as a success case in the 2017 Life Information Day in Badajoz – June 2017 Participation in the workshop sludge of WWTP - LIFE LO2X - June 2017 Life iCirBus-4 Industries project is presented on 10th World Congress of Chemical Engineering - October 2017 Participation in conference on urban waste management and circular economy - Life Anadry - October 2018 Conference to present preliminary results of the LIFE iCirBus-4Industries project - March 2020 |