Annexes to COM(2002)769 - Minimum safety requirements for tunnels in the Trans-European Road Network - Main contents
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This page contains a limited version of this dossier in the EU Monitor.
| dossier | COM(2002)769 - Minimum safety requirements for tunnels in the Trans-European Road Network. |
|---|---|
| document | COM(2002)769  |
| date | April 29, 2004 |
Safety measures as referred to in Article 3
1. Basis for deciding on safety measures
1.1. Safety parameters
| 1.1.1. | Safety measures to be implemented in a tunnel shall be based on a systematic consideration of all aspects of the system composed of the infrastructure, operation, users and vehicles. |
| 1.1.2. | The following parameters shall be taken into account:
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| 1.1.3. | Where a tunnel has a special characteristic as regards the aforementioned parameters, a risk analysis shall be carried out in accordance with Article 13 to establish whether additional safety measures and/or supplementary equipment is necessary to ensure a high level of tunnel safety. This risk analysis shall take into consideration possible accidents, which clearly affect the safety of road users in tunnels and which might occur during the operating stage and the nature and magnitude of their possible consequences. |
1.2. Minimum requirements
| 1.2.1. | The safety measures required by the following paragraphs shall be implemented at a minimum in order to ensure a minimum level of safety in all the tunnels covered by the Directive. Limited derogations from these requirements may be allowed provided that the following procedure is completed successfully. Member States or the Administrative Authority shall send to the Commission information on the following: the limited derogation(s) envisaged,
The Commission shall transmit any request for a limited derogation to the Member States as soon as possible, and in any case within one month of receipt. If, within a period of three months after receipt of the request by the Commission, neither the Commission nor a Member State formulates objections, the limited derogation shall be deemed granted and the Commission shall inform all Member States accordingly. If objections are expressed, the Commission shall make a proposal in accordance with the procedure referred to in Article 17(2). Where the decision is negative, the limited derogation shall not be allowed. |
| 1.2.2. | In order to provide a unified interface in all tunnels to which this Directive applies, no derogation from the requirements of the following paragraphs shall be allowed regarding the design of the safety facilities at the disposal of the tunnel users (emergency stations, signs, lay-bys, emergency exits, radio re-broadcasting when required). |
1.3. Traffic volume
| 1.3.1. | Where "traffic volume" is mentioned in this Annex, it refers to the annual average daily traffic through a tunnel per lane. For the purpose of determining the traffic volume, each motor vehicle shall be counted as one unit. |
| 1.3.2. | Where the number of heavy goods vehicles over 3,5 t exceeds 15% of the annual average daily traffic, or seasonal daily traffic significantly exceeds the annual average daily traffic, the additional risk will be assessed and taken into account by increasing the traffic volume of the tunnel for the application of the following paragraphs. |
2. Infrastructure measures
2.1. Number of tubes and lanes
| 2.1.1. | The main criteria for deciding whether to build a single or a twin-tube tunnel shall be projected traffic volume and safety, taking into account aspects such as the percentage of heavy goods vehicles, gradient and length. |
| 2.1.2. | In any case, where, for tunnels at the design stage, a 15-year forecast shows that the traffic volume will exceed 10 000 vehicles per day per lane, a twin-tube tunnel with unidirectional traffic shall be in place at the time when this value will be exceeded. |
| 2.1.3. | With the exception of the emergency lane, the same number of lanes shall be maintained inside and outside the tunnel. Any change in the number of lanes shall occur at a sufficient distance in front of the tunnel portal; this distance shall be at least the distance covered in 10 seconds by a vehicle travelling at the speed limit. When geographic circumstances prevent this, additional and/or reinforced measures shall be taken to enhance safety. |
2.2. Tunnel geometry
| 2.2.1. | Special consideration shall be given to safety when designing the cross-sectional geometry and the horizontal and vertical alignment of a tunnel and its access roads, as these parameters have a significant influence on the probability and severity of accidents. |
| 2.2.2. | Longitudinal gradients above 5% shall not be permitted in new tunnels, unless no other solution is geographically possible. |
| 2.2.3. | In tunnels with gradients higher than 3%, additional and/or reinforced measures shall be taken to enhance safety on the basis of a risk analysis. |
| 2.2.4. | Where the width of the slow lane is less than 3,5 m and heavy goods vehicles are allowed, additional and/or reinforced measures shall be taken to enhance safety, on the basis of a risk analysis. |
2.3. Escape routes and emergency exits
| 2.3.1. | In new tunnels without an emergency lane, emergency walkways, elevated or not, shall be provided for use by tunnel users in the event of a breakdown or an accident. This provision does not apply if the construction characteristics of the tunnel do not allow it or allow it only at disproportional cost and the tunnel is unidirectional and is equipped with a permanent surveillance and lane closure system. |
| 2.3.2. | In existing tunnels where there is neither an emergency lane nor an emergency walkway, additional and/or reinforced measures shall be taken to ensure safety. |
| 2.3.3. | Emergency exits allow tunnel users to leave the tunnel without their vehicles and reach a safe place in the event of an accident or a fire and also provide access on foot to the tunnel for emergency services. Examples of such emergency exits are:
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| 2.3.4. | Shelters without an exit leading to escape routes to the open shall not be built. |
| 2.3.5. | Emergency exits shall be provided if an analysis of relevant risks, including how far and how quickly smoke travels under local conditions, shows that the ventilation and other safety provisions are insufficient to ensure the safety of road users. |
| 2.3.6. | In any event, in new tunnels, emergency exits shall be provided where the traffic volume is higher than 2 000 vehicles per lane. |
| 2.3.7. | In existing tunnels longer than 1 000 m, with a traffic volume higher than 2 000 vehicles per lane, the feasibility and effectiveness of the implementation of new emergency exits shall be evaluated. |
| 2.3.8. | Where emergency exits are provided, the distance between two emergency exits shall not exceed 500 m. |
| 2.3.9. | Appropriate means, such as doors, shall be used to prevent smoke and heat from reaching the escape routes behind the emergency exit, so that the runnel users can safely reach the outside and the emergency services can have access to the tunnel. |
2.4. Access for emergency services
| 2.4.1. | In twin-tube tunnels where the tubes are at the same level or nearly, cross-connections suitable for the use of emergency services shall be provided at least every 1 500 m. |
| 2.4.2. | Wherever geographically possible, crossing of the central reserve (median strip) shall be made possible outside each portal of a twin- or multi-tube tunnel. This measure will allow emergency services to gain immediate access to either tube. |
2.5. Lay-bys
| 2.5.1. | For new bi-directional tunnels longer than 1 500 m where traffic volume is higher than 2 000 vehicles per lane, lay-bys shall be provided at distances which do not exceed 1 000 m, if emergency lanes are not provided. |
| 2.5.2. | In existing bi-directional tunnels longer than 1 500 m with a traffic volume higher than 2 000 vehicles per lane but no emergency lane, the feasibility and effectiveness of the implementation of lay-bys shall be evaluated. |
| 2.5.3. | If the construction characteristics of the tunnel do not allow it or allow it only at disproportionate cost, lay-bys do not have to be provided if the total tunnel width which is accessible to vehicles, excluding elevated parts and normal traffic lanes, is at least equal to the width of one normal traffic lane. |
| 2.5.4. | Lay-bys shall include an emergency station. |
2.6. Drainage
| 2.6.1. | Where the transport of dangerous goods is permitted, the drainage of flammable and toxic liquids shall be provided for through well-designed slot gutters or other measures within the tunnel cross sections. Additionally, the drainage system shall be designed and maintained to prevent fire and flammable and toxic liquids from spreading inside tubes and between tubes. |
| 2.6.2. | If in existing tunnels that requirement cannot be met or can be met only at disproportionate cost, this shall be taken into consideration when deciding whether to allow the transport of dangerous goods on the basis of an analysis of relevant risks. |
2.7. Fire resistance of structures
The main structure of all tunnels where a local collapse of the structure could have catastrophic consequences, e.g. immersed tunnels or tunnels which can cause the collapse of important neighbouring structures, shall ensure a sufficient level of fire resistance.
2.8. Lighting
| 2.8.1. | Normal lighting shall be provided so as to ensure appropriate visibility day and night for drivers in the entrance zone as well as in the interior of the tunnel. |
| 2.8.2. | Safety lighting shall be provided to allow a minimum visibility for tunnel users to evacuate the tunnel in their vehicles in the event of a breakdown of the power supply. |
| 2.8.3. | Evacuation lighting, such as evacuation marker lights, at a height of no more than 1,5 m, shall be provided to guide tunnel users to evacuate the tunnel on foot, in the event of emergency. |
2.9. Ventilation
| 2.9.1. | The design, construction and operation of the ventilation system shall take into account:
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| 2.9.2. | A mechanical ventilation system shall be installed in all tunnels longer than 1 000 m with a traffic volume higher than 2 000 vehicles per lane. |
| 2.9.3. | In tunnels with bi-directional and/or congested unidirectional traffic, longitudinal ventilation shall be allowed only if a risk analysis according to Article 13 shows it is acceptable and/or specific measures are taken, such as appropriate traffic management, shorter emergency exit distances, smoke exhausts at intervals. |
| 2.9.4. | Transverse or semi-transverse ventilation systems shall be used in tunnels where a mechanical ventilation system is necessary and longitudinal ventilation is not allowed under point 2.9.3. These systems must be capable of evacuating smoke in the event of a fire. |
| 2.9.5. | For tunnels with bi-directional traffic, with a traffic volume higher than 2 000 vehicles per lane, longer than 3 000 m and with a control centre and transverse and/or semi-transverse ventilation, the following minimum measures shall be taken as regards ventilation:
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2.10. Emergency stations
| 2.10.1. | Emergency stations are intended to provide various items of safety equipment, in particular emergency telephones and extinguishers, but are not intended to protect road users from the effects of fire. |
| 2.10.2. | Emergency stations can consist of a box on the sidewall or preferably a recess in the sidewall. They shall be equipped with at least an emergency telephone and two fire extinguishers. |
| 2.10.3. | Emergency stations shall be provided near the portals and inside at intervals which for new tunnels shall not exceed 150 m and which in existing tunnels shall not exceed 250 m. |
2.11. Water supply
A water supply shall be provided for all tunnels. Hydrants shall be provided near the portals and inside at intervals which shall not exceed 250 m. If a water supply is not available, it is mandatory to verify that sufficient water is provided otherwise.
2.12. Road signs
Specific signs shall be used for all safety facilities provided for tunnel users. Signs and panels for use in tunnels are given in Annex III.
2.13. Control centre
| 2.13.1. | A control centre shall be provided for all tunnels longer than 3 000 m with a traffic volume higher than 2 000 vehicles per lane. |
| 2.13.2. | Surveillance of several tunnels may be centralised at a single control centre. |
2.14. Monitoring systems
| 2.14.1. | Video monitoring systems and a system able to automatically detect traffic incidents (such as stopping vehicles) and/or fires shall be installed in all runnels with a control centre. |
| 2.14.2. | Automatic fire detection systems shall be installed in all tunnels which do not have a control centre where the operation of mechanical ventilation for smoke control is different from the automatic operation of ventilation for the control of pollutants. |
2.15. Tunnel closing equipment
| 2.15.1. | In all tunnels longer than 1 000 m, traffic signals shall be installed before the entrances so that the tunnel can be closed in case of an emergency. Additional means, such as variable message signs and barriers, can be provided to ensure that instructions are obeyed. |
| 2.15.2. | Inside all tunnels longer than 3 000 m, with a control centre and a traffic volume higher than 2 000 vehicles per lane, equipment to stop vehicles in the event of an emergency is recommended at intervals not exceeding 1 000 m. This equipment shall consist of traffic signals and possibly additional means, such as loudspeakers, variable message signs and barriers. |
2.16. Communication systems
| 2.16.1. | Radio re-broadcasting equipment for emergency service use shall be installed in all tunnels longer than 1 000 m with a traffic volume higher than 2 000 vehicles per lane. |
| 2.16.2. | Where there is a control centre, it must be possible to interrupt radio re-broadcasting of channels intended for tunnel users, if available, in order to give emergency messages. |
| 2.16.3. | Shelters and other facilities where evacuating tunnel users must wait before they can reach the outside shall be equipped with loudspeakers for the provision of information to users. |
2.17. Power supply and electrical circuits
| 2.17.1. | All tunnels shall have an emergency power supply capable of ensuring the operation of safety equipment indispensable for evacuation until all users have evacuated the tunnel. |
| 2.17.2. | Electrical, measurement and control circuits shall be designed in such a way that a local failure, such as one due to a fire, does not affect unimpaired circuits. |
2.18. Fire resistance of equipment
The level of fire resistance of all tunnel equipment shall take into account the technological possibilities and aim at maintaining the necessary safety functions in the event of a fire.
2.19. Table displaying informative summary of minimum requirements
The table set out hereafter gives a summary of the minimum requirements laid down in the previous paragraphs. The minimum requirements are those set out in the operative text of this Annex.
3. Measures concerning operations
3.1. Operating means
Tunnel operation shall be organised and dispose of such means as will ensure the continuity and safety of the traffic through the tunnel. The personnel involved in the operation as well as the emergency services shall receive appropriate initial and continuing training.
3.2. Emergency planning
Emergency response plans shall be available for all tunnels. In tunnels starting and finishing in different Member States, a single bi-national emergency response plan shall involve the two countries.
3.3. Works in tunnels
Complete or partial closure of lanes due to construction or maintenance works planned in advance shall always begin outside the tunnel. Variable message signs, traffic signals and mechanical barriers may be used for this purpose.
3.4. Management of accidents and incidents
In the event of a serious accident or incident, all appropriate tunnel tubes shall be closed immediately to traffic.
This shall be done by simultaneous activation not only of the abovementioned equipment before the portals, but also of variable message signs, traffic signals and mechanical barriers inside the tunnel, if available, so that all the traffic can be stopped as soon as possible outside and inside the tunnel. Tunnels of less than 1 000 m may be closed by other means. Traffic shall be managed in such a way that unaffected vehicles can quickly leave the tunnel.
The access time for emergency services in the event of an incident in a tunnel shall be as short as possible and shall be measured during periodic exercises. In addition, it may be measured during incidents. In major bi-directional tunnels with high traffic volumes, a risk analysis in accordance with Article 13 shall establish whether emergency services shall be stationed at the two extremities of the tunnel.
3.5. Activity of the control centre
For all tunnels requiring a control centre, including those starting and finishing in different Member States, a single control centre shall have full control at any given time.
3.6. Tunnel closure
In the event of tunnel closure (long or short-term), users shall be informed of the best alternative itineraries, by means of easily accessible information systems.
Such alternative itineraries shall form part of systematic contingency plans. They should aim to maintain traffic flow as much as possible and minimise secondary safety effects on the surrounding areas.
Member States should make all reasonable efforts to avoid a situation in which a tunnel located on the territory of two Member States can not be used due to the consequences of bad weather conditions.
3.7. Transport of dangerous goods
The following measures shall be applied concerning access to tunnels for vehicles transporting dangerous goods, as defined in the relevant European legislation regarding the transport of dangerous goods by road:
| — | perform a risk analysis in accordance with Article 13 before the regulations and requirements regarding the transportation of dangerous goods through a tunnel are defined or modified, |
| — | place appropriate signs to enforce the regulation before the last possible exit before the tunnel and at tunnel entrances, as well as in advance so as to allow drivers to choose alternative routes, |
| — | consider specific operating measures designed to reduce the risks related to some or all of the vehicles transporting dangerous goods in tunnels, such as declaration before entering or passage in convoys escorted by accompanying vehicles, on a case by case basis further to the aforementioned risk analysis. |
3.8. Overtaking in tunnels
A risk analysis shall be carried out in order to decide whether heavy goods vehicles should be allowed to overtake in tunnels with more than one lane in each direction.
3.9. Distances between vehicles and speed
The appropriate speed of vehicles and the safe distance between them are especially important in tunnels and shall be given close attention. This shall include advising tunnel users of appropriate speeds and distances. Enforcement measures shall be initiated as appropriate.
Road users driving passenger cars should under normal conditions maintain a minimum distance from the vehicle in front of them equivalent to the distance travelled by a vehicle in 2 seconds. For heavy goods vehicles this distance should be doubled.
When traffic stops in a tunnel, road users should maintain a minimum distance of 5 metres from the vehicle in front, except if this is not possible due to an emergency stop.
4. Information campaigns
Information campaigns regarding safety in tunnels shall be regularly organised and implemented in conjunction with interested parties on the basis of the harmonised work of international organisations. These information campaigns shall cover the correct behaviour of road users when approaching and driving through tunnels, especially in connection with vehicle breakdown, congestion, accidents and fires.
Information on the safety equipment available and proper road user behaviour in tunnels shall be provided in convenient places for tunnel users (for example at rest areas before tunnels, at tunnel entrances when the traffic is stopped or on the internet).
ANNEX II
Approval of the design, safety documentation, commissioning of a tunnel, modifications and periodic exercises
1. Approval of the design
| 1.1. | The provisions of this Directive shall be applied from the preliminary design stage onward. |
| 1.2. | Before any construction work begins, the Tunnel Manager shall compile the safety documentation described under points 2.2 and 2.3 for a tunnel at the design stage and shall consult the Safety Officer. The Tunnel Manager shall submit the safety documentation to the Administrative Authority and attach the opinion of the Safety Officer, and/or of the Inspection Entity when available. |
| 1.3. | The design, as appropriate, shall be approved by the responsible authority, which shall inform the Tunnel Manager and the Administrative Authority of its decision. |
2. Safety documentation
| 2.1. | The Tunnel Manager shall compile safety documentation for each tunnel and keep it permanently up-to-date. He shall provide a copy of the safety documentation to the Safety Officer. |
| 2.2. | The safety documentation shall describe the preventive and safeguard measures needed to ensure the safety of users, taking into account people with reduced mobility and disabled people, the nature of the route, the configuration of the structure, its surroundings, the nature of the traffic and the scope for action by the emergency services defined in Article 2 of the Directive. |
| 2.3. | In particular, the safety documentation for a tunnel at the design stage shall include:
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| 2.4. | The safety mentation for a tunnel which is at the commissioning stage shall includein addtion to the documentation required at the design stage:
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| 2.5. | The safety documentation for a tunnel which is in operation shall include in addtion to the documentation required at the commissioning stage:
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3. Commissioning
| 3.1. | The initial opening of a tunnel to public traffic shall be subject to authorisation by the Administrative Authority (commissioning) in accordance with the following procedure. |
| 3.2. | This procedure also applies to the opening of a tunnel to public traffic after any major change in construction or operation or any substantial modification work on the tunnel which might significantly alter any of the constituent components of the safety documentation. |
| 3.3. | The Tunnel Manager shall transmit the safety documentation mentioned in point 2.4 to the Safety Officer, who shall give his opinion on the opening of the runnel to public traffic. |
| 3.4. | The Tunnel Manager shall forward this safety documentation to the Administrative Authority, and shall attach the opinion of the Safety Officer. The Administrative Authority shall decide whether or not to authorise the opening of the tunnel to public traffic, or whether to do so with restrictive conditions, and shall notify this to the Tunnel Manager. A copy of this decision shall be forwarded to the emergency services. |
4. Modifications
| 4.1. | For any substantial modification in the structure, equipment or operation, which might significantly alter any of the constituent components of the safety documentation, the Tunnel Manager shall ask for a new authorisation of operation following the procedure described under point 3). |
| 4.2. | The Tunnel Manager shall inform the Safety Officer of any other change in construction and operation. Furthermore, prior to any modification work on the tunnel, the Tunnel Manager shall provide the Safety Officer with documentation detailing the proposals. |
| 4.3. | The Safety Officer shall examine the consequences of the modification and in any event give his opinion to the Tunnel Manager, who shall send a copy to the Administrative Authority and to the emergency services. |
5. Periodic exercises
The Tunnel Manager and the emergency services shall, in cooperation with the Safety Officer, organise joint periodic exercises for tunnel staff and the emergency services.
Exercises:
should be as realistic as possible and should correspond to the defined incident scenarios,
should yield clear evaluation results,
should prevent any damage to the tunnel,
may also, in part, be conducted as table top or computer simulation exercises for complementary results.
| (a) | Full scale exercises under conditions that are as realistic as possible shall be conducted in each tunnel at least every four years. Tunnel closure will only be required if acceptable arrangements can be made for diverting traffic. Partial and/or simulation exercises shall be conducted every year in between. In areas where several tunnels are located in close proximity to each other, a full scale exercise must be conducted in at least one of those tunnels. |
| (b) | The Safety Officer and the emergency services shall evaluate jointly these exercises draw up a report and make appropriate proposals. |
ANNEX III
Signing for tunnels
1. General requirements
The following are road signs and symbols to be used for tunnels. Road signs mentioned in this section are described in the Vienna Convention on Road Signs and Signals of 1968, unless otherwise specified.
In order to facilitate international understanding of signs, the system of signs and signals prescribed in this Annex is based on the use of shapes and colours characteristic of each class of sign and, wherever possible, on the use of graphic symbols rather than words. Where Member States consider it necessary to modify the signs and symbols prescribed, the modifications made shall not alter their essential characteristics. Where Member States do not apply the Vienna Convention, the prescribed signs and symbols may be modified, provided that the modifications made shall not alter their essential intent.
| 1.1. | Road signs shall be used to designate the following safety facilities in tunnels: Lay-bys; Emergency exits: the same sign shall be used for all kinds of emergency exits; Escape routes: the two nearest emergency exits shall be signed on the sidewalls at distances of no more than 25 m, at a height of 1,0 to 1,5 m above escape route level, with an indication of the distances to the exits; Emergency stations: signs to indicate the presence of emergency phones and fire extinguishers. |
| 1.2. | Radio: In tunnels where users can receive information via their radio, appropriate signs placed before the entrance shall inform users on how to receive this information. |
| 1.3. | Signs and markings shall be designed and positioned so that they are clearly visible. |
2. Description of signs and panels
Member States shall use appropriate signs, if necessary, in the advance warning area of the tunnel, inside the runnel and after the end of the tunnel. When designing the signs for a tunnel, local traffic and construction conditions as well as other local conditions shall be considered. Signs according to the Vienna Convention on Road Signs and Signals shall be used, except in Member States which do not apply the Vienna Convention.
| 2.1. | Tunnel sign
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| 2.2. | Horizontal signing Horizontal delineation should be used at the roadside edge. In the case of bi-directional runnels, clearly visible means should be used along the median line (single or twin) separating the two directions. |
| 2.3. | Signs and panels for signing of facilities Emergency stations Emergency stations shall bear informative signs, which shall be F signs according to the Vienna Convention and indicate the equipment available to road users, such as: In emergency stations which are separated from the tunnel by a door, a clearly legible text, written in appropriate languages, shall indicate that the emergency station does not ensure protection in case of fire. An example is given below: "THIS AREA DOES NOT PROVIDE PROTECTION FROM FIRE Follow signs to emergency exits" Lay-bys The signs to indicate lay-bys should be E signs according to the Vienna Convention. Telephones and fire extinguishers shall be indicated by an additional panel or incorporated in the sign itself. Emergency exits The signs to indicate "Emergency exits" should be G signs according to the Vienna Convention. Examples are shown below: It is also necessary to sign the two nearest exits on the sidewalls. Examples are shown below. Lane signals These signs can be circular or rectangular Variable message signing Any variable message signs shall have clear indications to inform tunnel users of congestion, breakdown, accident, fire or any other hazards. |