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Confindustria Emilia-Romagna. “Low cost sorbent for reducing mercury emissions” Soreme Project 18 month meeting Tartu, 18 June 2014. Life+ 11 ENV/IT/109-Soreme . Role of Confindustria ER in Soreme.
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Confindustria Emilia-Romagna “Low cost sorbent for reducing mercury emissions” Soreme Project 18 month meeting Tartu, 18 June 2014 Life+ 11 ENV/IT/109-Soreme
Role of Confindustria ER in Soreme • CONER represents companies to test the Soreme sorbent at semi-industrial and industrial level • CONER is responsible for implementation of the following actions: • Implementation actions (B) • B.4 - Demonstration of the innovative project mercury sorbent at semi-industrial level • B.5 - Demonstration of the innovative project mercury sorbent at industrial level • Monitoring of the impact of the project actions (C) • C.4 – Feedback on Soreme mercury sorbent use • C.5 - Demonstration of environmental-technical-socio-economic viability • CONER is also involved : • Communication and dissemination actions (D) • Project management and monitoring of the project progress (E)
Complete the selection of Industries available to host the demonstration activities ( with the involvement of local industrial associations ) side effect: dissemination and promotional events! • Demonstration activity on gas emission and waste water treatment • SOREME demonstration facilities (gas + water) to be integrated within the specific industrial plan\cycle; • The scope of the demonstration activities focuses on "demonstrating the flexibility of its use in different real industrial cycles\environment”: • Crematoria – Gas Phase Treatment; • Crematoria – Liquid Phase Treatment; • Medical \Hospital wast water treatment ; • Industrial Plants producing concrete goods all involving as final purification steps processes with waste waters containing mercury; • Industrial plants treating urban wastes (Waste Water Emission) • Feedback on mercury sorbent use started (C.4 action) • Regulatory assessment on the environmental viability (C.5 action) • Realization of SOREME video and SOREME trials • 4 presentations + 1 poster @ R2B + 1 international fair Main activities and results:
Focus on demonstration at (semi)industrial (B.4-B.5) • The production of over 30 tests on different mercury impregnated samples (both SOREME and other commercially available ACs) has been done in different industrial framework each with its own dedicated approach • The SOREME sorbent has thus been proposed as a viable solution for a number of industrial sectors with problems related to mercury emissions.
… the bureaucracy • it has also been necessary (and non forseen in the proposal) to • realize dedicated (disposable) demonstration facilities to expose the SOREME sorbent to real industrial cycles under controlled process parameters while contemporary satisfying the current environmental and security regulatory framework; • Elaborate temporary plans for the security of individual industrial plant hosting the demonstration activities and for the employees; • Validate dedicated Assurances to cover the risk of any unexpected damages the SOREME sorbents might have caused to any third parties, infrastructures or employees, for a maximum amount of 1.5M€. • Set-up necessary procedures to manage the SOREME sorbent filtration unit during the life cycles of the demonstration activities. • Ask environmental authorization to local authority
Authorization and parts of the documents DURC DUVRI
SoremeEcosystems (sites and suppliers) Milano Dissemination activities Dissemination activities Dissemination activities
Description of the plants INCINERATION PLANTS – Modena
The SoremeDemonstrationFacility Industrial Treatment Stages to satisfy environmental regulations on emissions SOREME Demonstration Facility
The SoremeDemonstrationFacility - foto • After the definition of a procedure 7+7 trials havebeendone under different industrial cycles • The SOREME + ACs are sent to CNR for analysis
Incineration furnace of hospital waste Phase 1 (Sample qualification) mercury 0.02 and 0.05 mg/l - The waste water used for the test was taken immediately downstream of the washing tower of the fumes Hg into water Phase 2/3 (adsorption test in batch condition): The sorbent product is brought into contact with the wastewater containing mercury, in different test conditions (contact time, temperature, volumetric ratios, saturation of the sorbent). Mercury is transferred into the water in the washing step of the fumes (wet scrubbing towers) and in various other stages which involve shutting down and transport of the ashes, the washing of the open spaces, etc. ... • For all the tests the SOREME has been proved to be similar to commercially available Acs, remarkably providing evidence to be able to absorb the mercury in waste water; • Also once exposed in water solition Hg is not realised
Phase 4 (hydraulic test in pilot plant) : The sorbent product is inserted inside a column filtration plant. The test is intended to check the hydraulic characteristics and in particular the load losses and the material's ability to withstand a filtration type "downstream“ or to switch to a filtration of type "upstream" • Height of the filter bed: 750 mm • Internal diameter of the column: 54mm • Area of the filter bed: 22,9 cm² • Volume of the filter bed: 1,72 l Phase 5 (adsorption test on pilot plan): The SOREME sorbent, is made to pass through from the wastewater containing mercury, in different test conditions (contact time, saturation of the sorbent). Running activities
Plants producing goods (Waste Water Emission): Mercury is transferred in waste water in a similar way as for the incineration plants. • To determinate the effectiveness of SOREME in waste water from industrial manufacturing processes, it has been necessary to : • determinate the maximum transit velocity in a dedicated columnar filtrating system; • determinate the capability of absorption of SOREME sorption in solution containing different Hg concentrations; • benchmark the SOREME sorbent with commercially available ACs having similar volume and specific filtrating velocity; • A filtrating system has been realized to simulate industrial treatment under a controlled environment. • (host SOREME in pellet or in granular + commercially-available activated carbon PK1-3. • The industrial case also requires a filtrating bed with a first layer of quartzite followed by carbons. • Different water solutions containing a controlled amount of mercury have been prepared and demonic tests performed so as to force the polluted liquid to percolate inside the multi-layers of quarzitefolowed by SOREME or comercially available sorbent.
Plants producing goods (The Acs vs SOREME): ACs. CK 3mm SOREME PELLET. 3mm SOREME Granular - 100 ml SOREME Granular shape (56,30g) - 100 ml Quarzite, (135,85g ) - 100 ml pk 1-3 ACs (27,90 g) DIVEO SOREME PELLETS DISGRAGATE IN WAST WATER differentmethods are required to control
Plants producing goods (results): SOREME testing solutions respectivenly The results shows that the SOREME performs similarly to ACs in terms of absolute Hg absorbed. Despite that, the efficiencies measured in terms of µg of Hg per each g of sorbent shows that the commercial carbon Pk1-3 is 1,4-2 times better that SOREME sorbent. The SOREME sorbent in granular shape has the limit to be applied under relatively low filtration rate (4,5 m3/h per m2) vs PK 1-3 mm. This means that for such kind of application SOREME requires to be developed under a controlled-in-size- shape (target size 1—3 mm) so to be used with a higher velocity. This limits the usage of SOREME to applications with very low water flow or under batch conditions.
Other industrial Plants water treatments 3 othertypes of exposureconditions Are under analisys
Dissemination events of CONER Journal : Dimensione Industria Reaching over 500 companies • Promotional evets: • Unindustria Forlì Cesena (5-6 April 2013) • Unindustria Forlì Cesena (11 April and 22 May 2013)
SOREME Team at CONER Anna Maria Raimondi Danilo Mascolo Luca Rossi Anna De Vito Gianluca Rusconi