TECHNOLOGY ON ENERGY SAVING

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Austin Watts
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1 Leonardo da Vinci Fiumicino Airport 1

2 SUMMARY 1. Introduction of the Airport 2. The Environmental Management System 3. Energy Consumption 4. Actions for Saving Energy 5. Actions for Renewable Energy 6. Feasibility studies 2

3 Leonardo da Vinci - Fiumicino Passengers/year Movements/year Total Area 1590 ha Runways (3+1) 14 km Taxiway 32 km Internal Roads 37 km Terminal pax (5) mq Stands 124 Car Park Check-in desk 355 Gates 84 Loading bridge 36 3

4 SUMMARY 1. Introduction of the Airport 2. The Environmental Management System 3. Energy Consumption 4. Actions for Saving Energy 5. Actions for Renewable Energy 6. Feasibility studies 4

5 LAND SIDE FACILITIES INTERNATIONAL SATELLITE FIUMICINO AIRPORT TERMINAL 3 TERMINAL 3 Pier D Pier B TERMINAL 5 TERMINAL 1 5

LIGHTING SYSTEMS 900 Km NET of current 74

6 AIRPORT SYSTEMS 4 BHS 5 HBS 15 Km conveyor belts HEAT Output 103 MW REFRIGERATION Output 60 MW PEOPLE MOVER ELECTRICAL POWER 100 MW 20 Km NET of current 20 Kv TRIGENERATION 25 MW CARGO ELEVATOR TRANSLATOR VHEICLE RUNWAY LIGHTING SYSTEMS 900 Km NET of current 74 ESCALATORS 28 TAPIS RULANT 170 LIFTS 150 BAGGAGE SCREENING SYSTEMS 6

7 THE ENVIRONMENTAL MANAGEMENT SYSTEM Environment function started in 1988 Mission : Defines and analyses the main factors of environmental impacts, within the airports boundaries. Manages the relationships with the environmental authorities (Ministery, Region, Rome province etc), Defines the technical standards for the services concerned The Environmental Management System (FCO gained ISO14001 certification in 1998 and CIA in 2001) through The definition of ADR environmental policy and the monitoring of environmental aspects in compliance with the regulatory framework The elaboration of the annual environmental report that states ADR s commitment vs environment 7

8 THE ENVIRONMENTAL POLICY FCO CIA SUSTAINABLE DEVELOPMENT WIDESPREAD RESPONSIBILITY TRANSPARENCY WITH STAKEHOLDERS 8

9 MINIMIZING THE ENVIRONMENTAL IMPACT AREA WASTE INDUSTRIAL WATER DRINKING WATER NOISE AIR QUALITY ELECTRO- MAGNETIC FIELDS MAIN ACTIONS Differentiated urban waste collection Biological waste water purifyng plant with UV systems Control of use Noise abatment procedures Integrated monitoring systems Monitoring of air emissions Monitoring atmospheric pollution Periodic measurements of electromagnetic fields within the airport boundaries OBJECTIVES 35% of waste recycled by 2011 versus 25% 2010 Complete recycle of waste water for industrial purposes 5% of drinking water reduction 2011 versus 2010 Implementation of the noise insulation scheme Complete identification and quantification of CO2 emission by sources. Within 2011 certification of the above Keep costantly below the level fixed by Law 9

10 SUMMARY 1. Introduction of the Airport 2. The Environmental Management System 3. Energy Consumption 4. Actions for Saving Energy 5. Actions for Renewable Energy 6. Feasibility studies 10

000.000 kwh lighting HEATED WATER 54.000.000 Mcal/year 20 MILIONS WATER POTABLE 1.

11 ENERGY CONSUMPTION ELECTRICITY kwh/year kwh conditioning kwh driving power kwh lighting HEATED WATER Mcal/year 20 MILIONS WATER POTABLE mc/year INDUSTRIAL mc/year 11

12 SUMMARY 1. Introduction of the Airport 2. The Environmental Management System 3. Energy Consumption 4. Actions for Saving Energy 5. Actions for Renewable Energy 6. Feasibility studies 12

13 WHAT HAVE WE DONE UNTIL TODAY? Cogeneration toe/year Plants telecontrol ELECTRICITY 180 million kwh/year 120 milions kwh conditioning 40 milions kwh driving power 20 milions kwh lighting High efficiency engines Automation toe/year High efficency lights Photovoltaic Plants toe/year Light sensitive toe/year *toe: tonne of oil equivalent 1 toe = 45 GJ 13

14 WHAT HAVE WE DONE UNTIL TODAY? INSTALLATION OF LAMPS -35% VOLTAGE RATING -2 millions kwh/year -200 k /year - Maintenance costs Terminal 3 Terminal 1 14

15 WORK IN PROGRESS INSTALLATION OF LED LAMPS -70 % VOLTAGE RATING -0,6 millions kwh/year -60 k /year - Maintenance costs 15

16 Until 2008 eletricity was purchased from electric national grid DEFINITION COGENERATION (TRIGENERATION) Electricity PRODUCTION OF Thermal Energy Refrigerant Energy ADR PURPOSES Redundancy in power supply Reduce costs and optimize the overall energy consumption 16

17 GSE (ENEL Dist) TRIGENERATION METHAN (ITALGAS) AT / MT 150 / 20 KV DISTRIBUTION M.T. 20 KW 20 Kv NET 3 engines 8,5 MW (+1) 4 water tanks 2 heat absorbers Efficiency up to 75% DISTRIBUTION M.T. 20 KW HEATED WATER NET 17

18 TRIGENERATION 18

19 SUMMARY 1. Introduction of the Airport 2. The Environmental Management System 3. Energy Consumption 4. Actions for Saving Energy 5. Actions for Renewable Energy 6. Feasibility studies 19

20 PHOTOVOLTAIC PLANTS Feb Nuovo Conto Energia INCENTIVES FOR ENERGY PRODUCED BY PHOTOVOLTAIC PLANTS THE GOVERNMENT BUY ENERGY PRODUCED FOR 20 YEARS Project FCO Airport ACEA & ADR Realise the Plants and receive government incentives Gets a system to renewable sources and improves service level (es. cover parking) 20

21 PHOTOVOLTAIC PLANTS VEHICLES WORKSHOP 21 LONG TERM PARKING

22 LONG TERM PARKING sqm 2.15 MWp 400 toe/year PHOTOVOLTAIC PLANTS VEHICLES WORKSHOP sqm 0.2 MWp 40 toe/year 22

23 SUMMARY 1. Introduction of the Airport 2. The Environmental Management System 3. Energy Consumption 4. Actions for Saving Energy 5. Actions for Renewable Energy 6. Feasibility studies 23

24 FEASIBILITY STUDIES - GEOTHERMAL ENERGY ELECTRICITY 180 million kwh/year 67% Conditioning 22% Driving power 11% Lighting Need to lower the conditioning consumption for new and existing infrastructure November 2010 Ground Response Test 24

FEASIBILITY STUDIES - WASTE MANAGEMENT PNEUMATIC WASTE COLLECTION PLANT powered photovoltaic plants Purposes - Centralize and rationalize the waste collection -

25 FEASIBILITY STUDIES - WASTE MANAGEMENT PNEUMATIC WASTE COLLECTION PLANT powered photovoltaic plants Purposes - Centralize and rationalize the waste collection - Delete bad smell Indoor Station Outdoor Station Central Collection - Reducing waste collection truck presence lt diesel/year 23 toe/year - Reducing noise 25

26 FEASIBILITY STUDIES - MINIEOLIC December 2010 Test with an eolic tower Date analysis Factibility evaluation 26

27 FEASIBILITY STUDIES INFRASTRUCTURES THERMAL INSULATION Find actions to thermal insulation infrastructures 27

28 The Airport: CONCLUSIONS has to respect Kyoto Protocol guidelines realizes actions for saving energy promotes feasibility studies to apply technologies for saving energy in the development of the terminals 28

29 Thank you for your attention! Giorgio Gregori AEROPORTI DI ROMA Executive Vice President Infrastructures Phone:

30 WHAT HAVE WE DONE UNTIL TODAY? DRINKING WATER 1.1 million mc/year INDUSTRIAL WATER 1.5 milion mc/year Remote Control of Plants with Meters Electronic timers Biological purifyng plant treats waste water is capable of treating up to cm of waste per day The UV (ultraviolet) plant treats the discharge water exiting the biological purifyng plant 30

31 WORK IN PROGRESS TEVERE WILL SUPPLY INDUSTRIAL WATER TO THE AIRPORT Byological plants garantees supply for the actual need of industrial water To develope airport need s to take industrial water from the river Tevere 31