Scheda tecnica - EN (60)
Description of interventions carried out
According to article 9, par. 1 of the Ministerial Decree 471/99, the owners informed the competent authorities that the soil might be polluted subsequently to mineral spirit spill and about the security measures adopted. The procedures to present the Characterisation Plan started.
In the first phase, the Characterisation Plan required to collect data about the production of materials used during the production cycle. Analyses from a former research showed the presence of hydrocarbon-impregnated soil around the mineral spirit tanks.
Underground tanks reach 1 ml below the flooring level and their capacity is 5 m3. They are installed under a shelter which is divided in two parts: the first contains a floor tank where the spirit used to be used to check the products - it was then recovered and injected back into the tanks; the second part was used as a storage area. The Characterisation plan included the proposal for a more detailed analysis through 3 piezometers, to be carried out up to 60 ml and 5 coring up to a variable depth of 10-17 ml.
The Conference of Services approved the Characterisation Plan and the Municipality of Aprilia released the approval of the Plan (General Protocol no. 3444) on 24th January 2002.
Investigation plan
The investigation plan, as proposed in the approved Plan, took place from 26th February 2002 to 9th April 2004. The following analyses were carried out:
- N° 5 ground drillings at a variable depth of 10-17 ml spc for the ground sampling
- N° 3 piezometers up to a depth of 60 ml spc to take samples of ground water. Continuous analysis of interstitial gases to determine volatile organic compounds (VOC) through photoionisation, in order to determine what ground sections have to be sampled and what depth had to be reached.
Detailed reading of piezometer data and their statistical levels to reconstruct the local layout of the piezometric area.
- Drilling location
Piezometric drillings P1-P2-P3 and corings S1-S2-S3-S4-S5 were located as per table 01. Piezometers were arranged in the shape of an equilateral triangle with 20 ml sides and corings were carried out in a rectangular area having 10 x 20 ml sides - Execution methods
Corings and piezometers were carried out using dry rotating core barrels with 127 mm-diameter pipes. During the execution, a photoioniser monitored the cores and samples were taken and stored in pots; tests were carried out through a probe which analysed gases by optical reading. Groundwater was processed, bottled in glass bottles and labelled. - Topographic survey
It aimed at determining aquifer static levels in different phases, for piezometers P1-P2-P3, but also wells that were present in the area. - Hydrogeological investigation to determine state of the aquifer
- Tests carried out on soil and groundwater
Soil parameters analysed:
- Aromatic organic compounds (benzene, ethylbenzene, styrene, toluene, sirene)
- Chlorinated solvents (chlorinated aliphatics and non-carcinogenic chlorinated aliphatics)
- Light hydrocarbons C< 12 and heavy hydrocarbons C>12
- Metals ( As, Cd, Crtot, Cr VI, Ni, Pb, Zn)
Conclusions
- According to all surveys carried out in the area surrounding the estimated contamination point, next to the East tank, the reference limit values were not exceeded.
- Soil samples from survey S4 show a strong concentration of light hydrocarbons, between 1-8 ml, and a lower concentration of light hydrocarbons (8-13 ml). There is also a low concentration of aromatic organic compounds and heavy hydrocarbons. Tables no.3 and 4 are here attached, and show a summary of the most significant results of this investigations.
- Groundwater is not contaminated, according to the parameters selected for the spill, but As parameters exceed the limits set by the Ministerial Decree.
Polluted surface
According to the investigation: The polluted surface covers 64 m2 and corresponds to a square having coring S4 as its centre and whose sides are 8 ml long. Depth measured is approx. 12-13 ml; approx. 500 m3 of soil to be excavated.
Data
Customer: AEROSEKUR S.p.a.
Area: Aprilia (LT)
Construction site: Manufacturing plant
Total area: mq. 50.000
Description of the job
Remediation of polluted soils by Bioremediation technique
The characterisation plan realised in the warehouse's solvent area of the Aerosekur plant identified the presence of pollutants, mainly hydrocarbons. (see Characterisation plan sheet).
The effective remediation method used was a bioventilation process system, which optimises the local biological activity by injecting air, water, nutrients and oxygen into the subsoil.
According to the treatability tests performed in a laboratory on samples taken from the worksite, the contamination reduction programme aiming at bringing the levels below the limits set by the applicable regulation was respected as follows:
- 20% after 30 days
- 45% after 60 days
- 72% after 120 days
- 92% after 150 days
- below the limits after 180 days
Technical data
Volume of soil treated 530 m3
Data
Customer: AEROSEKUR S.p.a.
Area: Aprilia (LT)
Construction site: Manufacturing plant
Work Termination: end of 2005
Aerosekur
Aerosekur S.p.A.
Ansaldo Breda’s plant in Reggio Calabria had already been significantly remediated in 2001. In the framework of the workers' health protection programme, the danger due to exposure to any remaining asbestos fibres was taken into account. Analysis of a number of samples of deposited dust detected asbestos fibres in some of them. Air analyses, to detect airborne asbestos fibres, produced negative results. The most probable reason for the presence of asbestos in the powders is the replacement of the Eternit asbestos roof sheets, done 15 years ago.
The company decided to have TIA perform the special clean-up to remove the asbestos-contaminated dust, during the summer production downtime.
Main operations carried out
The limited number of days available for the job and the huge size of the plant required a significant deployment of workers and equipment to meet the deadline and achieve perfect remediation. The main operations we carried out are:- REMOVAL OF FALSE CEILING PANELS
- REMOVAL OF THE SUPPORTING METAL STRUCTURE
- EXTRAORDINARY CLEANING AND THOROUGH ASPIRATION OF ASBESTOS FIBRE-CONTAINING DUST FROM METALLIC STRUCTURES AND OVERHEAD INSTALLATIONS
The extraordinary cleaning was carried out in the following departments:
- Fitting-out department and offices - approx 12,000 m2
- Carpentry department - approx. 16,000 m2
- Painting department - approx. 3,000 m2
and on the following elements:
- Gantry crane plans and jib crane girders, gantry crane runners, jib crane runners
- Kerbs beneath, purlins, uprights and any supporting structure
- Lighting systems, wall switchgears and wireways
- Shed skylights
- Perimeter and dividing walls
- Departments work booths and offices, including their installation wireways
- Floorings of all departments
Sequence of activities
- WORK SITE SETTING-UP (FENCING, WATER AND POWER SYSTEMS, STORAGE AREAS SETTING-UP)
- MOVEMENT OF MOVABLE EQUIPMENT WITHIN THE DEPARTMENTS
- CLOSING AND SEALING OF AREAS SUBJECT TO DECONTAMINATION AND UDP INSTALLATION
- CONFINEMENT OF NON-MOVABLE MATERIALS AND EQUIPMENT BY MEANS OF POLYTHENE SHEETS
- REMOVAL OF THE FALSE CEILING
- WET CLEANING OF SHED WINDOWS
- GENERAL ASPIRATION AND CLEANING OF STRUCTURES, INSTALLATIONS AND FLOORINGS
- FINAL TEST WITH SAMPLES AND SEM ANALYSES
- WORK SITE CLOSING
Technical data
Average presence in the work site: 1 site manager, 41 remediation operators, with peaks of up to 70 people simultaneously.
Data
Customer: Ansaldo Breda
Construction site: Production plant in Via Gebbione
Area: Reggio Calabria
Work period: 23 days
Work termination: August 2015
Ansaldo Breda
Description of the job
- Asbestos removal and reconstruction of the building's roofing
- Installation of a total building integrated photovoltaic system
Technical data
- Removal of 8,142 m2 of cement-asbestos
- Reconstruction of 8,142 m2 of roofing with sandwich panels
- Installation of 2832 Sanyo HIT N 215 wp mono-crystalline amorphous silicon photovoltaic modules
- Power of the photovoltaic system installed: 608 kWp
- Yearly electrical power production estimated for the first year: 682,000 kW/h
Data
Customer: ARGO Clima spa
Area: Gallarate (VA)
