Download presentation
Presentation is loading. Please wait.
Published byLisa Lambert Modified over 8 years ago
1
AIMAG GROUP OVERVIEW www.aimag.it
2
AIMAG GROUP An integrated system of companies for innovation and quality of service. A multi-utility company for the management of energy, water, environmental and engineering services.
3
MISSION Citizen-Oriented Services Future-Oriented Strategies
4
CORPORATE STRUCTURE The company was entrusted by Aimag with selling methane gas: Sinergas provides households and companies with a convenient gas supply service as to prices, quality, contract conditions and a wide range of solutions concerning energy. The leader company manages natural gas distribution, the water integrated cycle (collection, distribution, treatment, drainage), environmental sanitation and public lighting services Leader company The company operates in the plant engineering field. Activities include design and execution of air conditioning and heating systems, fire-fighting systems, sterilisation technologies, water-sanitary systems, civil and industrial installations
5
CORPORATE STRUCTURE The company, born from Aimag’s experience in public service management, provides organizations and companies with know-how about marketing, development of human resources, territorial information and quality systems, for an integrated development of quality/safety/environment systems Tred Carpi operates the only plant in the region for the “environmentally-friendly disposal” of any waste durable good ranging from the so-called white household equipment to the brown goods and the grey ones. Patented, innovative technologies are adopted by Tred Carpi for the treatment of such waste, ensuring a strict compliance with national and community rules
6
TERRITORY
7
TERRITORY Aimag is majority-owned by 21 member Municipalities 900 km 2 : Service territory 200,000 Persons
8
GAS Networks, Systems And Services 18 Municipalities being served 86,000 Gas users 1,480 Gas network length in km 260,000,000 Volume of delivered gas in m 3 /year Design and execution of gas systems and networks Design and execution of gas pressure reduction and metering systems Projects of remote-controlled gas networks and systems Gas leak detection Supply and management of systems for gas hourly metering and remote reading Control of gas odorization degree Urbanization works – zoning works Design and execution of district heating plants and networks
9
WATER Management of Water Supply Systems and Engineering Systems for an Integrated Water Service 21 Municipalities being served 64.000 Water users 2.000 Length of the water supply system in km 26.000.000 Volume of water delivered in m 3 /year 33 Water treatment plants Design and execution of water supply distribution systems and sewage lifting installations Plant engineering design of drinking water equipment and installations Mathematical modelling of water supply systems Monitoring of water supply systems and water leaks detection Drinking water analysis Analysis of surface and underground waters Sewer systems mathematical modelling Hydraulic design of water treatment plants Management of water purification systems Analysis and treatment of effluents and industrial wastewaters
10
ENVIRONMENT State-of-the-Art Solutions for Waste Management 11 Municipalities being managed 1 Compost facilities 3 Landfills 16 Waste separation and recycling areas 654 Area of territory being served in km 2 Design, execution and management of waste separation and recycling areas Design, execution and management of non-hazardous waste landfills Design and management of waste compost facilities “Global service” in waste management
11
PLANT ENGINEERING SYSTEMS Execution and Management of High-Tech Plant Engineering Systems Management and design of public lighting systems Design and execution of heating and air- conditioning systems Heat management and operation of thermal power plants and air-conditioning systems Anti-fire surpression systems Design, execution and operation of systems to serve controlled atmosphere rooms – clean rooms Design, execution and management of plant engineering systems to serve sports and swimming facilities
12
ENERGY FROM RENEWABLE SOURCES Exploitation of biogas from landfill 4 plants producing electrical energy from biogas 18GWh produced energy
13
ENERGY FROM RENEWABLE SOURCES Photovoltaic Plant 59,4 KW nominal power 1500 m 2 occupied surface 65.000 KWh electrical produced energy
14
ENERGY FROM RENEWABLE SOURCES Cogeneration (Combined Heat and Power) Plant 500 KW Electrical power 2151 KW Thermical power 10 pubblic users (schools, swimming pool, wellness center, ecc) About 100 domestic users
15
ENERGY FROM RENEWABLE SOURCES Renewable energy Consumed energy = 70%
16
ENERGY FROM RENEWABLE SOURCES Geothermal Energy In partnership with Emilia Romagna Region we are developing a geothermal energy project in relation to Mirandola territory
17
ENERGY FROM RENEWABLE SOURCES Geothermal Energy FIRST STEP: Mirandola subsoil geological model SECOND STEP: special maps to define geothermal resources The good outcome of the geothermal energy exploitation in Ferrara territory and the geologic- structural correspondences are a strong incentive to the search of geothermal resources in Mirandola territory.
18
ENERGY FROM RENEWABLE SOURCES Geothermal Energy Project Scheduling -Existing studies and sources explotation -Project development: 12 months - Costs: about 20.000 euro
19
QUALITY CERTIFICATIONS REFERENCE STANDARD PROCESS UNI EN ISO 9001/2000 Water distribution and supply through water supply systems; gas distribution and commercial services for gas sale; operation of thermal power plants; check of gas plants safety for plants below 35 kW placed downstream the meter; laboratory analysis of drinking waters; disposal of non hazardous waste. UNI EN ISO 9001/2000 Composting of waste from urban waste separate collection and of special waste from agro-industry; selection of urban waste as such and composting of the wet fraction. UNI EN ISO 14001/96 Disposal of non-hazardous waste
20
SOA ATTESTATION SOA ATTESTATION OG1 (civil and industrial buildings) classification I; OG6 (water supply systems, gas pipelines, oil pipelines, irrigation and drainage works) classification IV; OG10 (systems for transforming high to medium voltage and for the distribution of electric power in alternating current) classification I; OG12 (works and systems for environmental remediation and protection) classification III; OS22 (water purification and treatment plants) classification III. AIMAG received the SOA attestation for the following categories and classifications:
21
THANK YOU Aimag Spa Via Mario Merighi 3 41037 Mirandola (MO) www.aimag.it
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.