Mobile Stoppings in Complex Subsurface Operations

Research output: Contribution to conferencePaper

Standard

Mobile Stoppings in Complex Subsurface Operations. / Hofer, Peter; Nöger, Michael; Eder, Manfred.
2022. Paper presented at Urban Operations Expert Talks 2022, Eisenerz, Austria.

Research output: Contribution to conferencePaper

Harvard

Hofer, P, Nöger, M & Eder, M 2022, 'Mobile Stoppings in Complex Subsurface Operations', Paper presented at Urban Operations Expert Talks 2022, Eisenerz, Austria, 19/07/22 - 21/07/22.

APA

Hofer, P., Nöger, M., & Eder, M. (2022). Mobile Stoppings in Complex Subsurface Operations. Paper presented at Urban Operations Expert Talks 2022, Eisenerz, Austria.

Vancouver

Hofer P, Nöger M, Eder M. Mobile Stoppings in Complex Subsurface Operations. 2022. Paper presented at Urban Operations Expert Talks 2022, Eisenerz, Austria.

Author

Hofer, Peter ; Nöger, Michael ; Eder, Manfred. / Mobile Stoppings in Complex Subsurface Operations. Paper presented at Urban Operations Expert Talks 2022, Eisenerz, Austria.6 p.

Bibtex - Download

@conference{eb4facfef3844fbaad19c18802375433,
title = "Mobile Stoppings in Complex Subsurface Operations",
abstract = "Emergency situations in subsurface structures hold specific challenges, particularly in the case of highly dissected underground structures (several levels, winding, high penetration depths). Successful mission accomplishment is primarily linked to the existence of a functioning ventilation system, which must be understood and controlled by the emergency forces. This paper presents the development of a physical separation of the zone transitions to enable interventions in the air flow conditions by means of ventilation elements which can be quickly deployed and relocated. Besides the availability of specialized units capable of setting up the necessary ventilation sections, expert knowledge in the SubSurface Operations Cell (SSOC) and a suitable ventilation simulation is needed to define these sections. The interdisciplinary development of a customized mobile ventilation door is an essential building block for managing complex underground operations. The establishment of zone crossings even in large cross-sections allows effective ventilation interventions in two-lane underground traffic structures with a large longitudinal extension.",
keywords = "complex subsurface operations, SubSurface Operations Cell (SSOC), ventilation flow, ventilation simulation, traffic tunnel",
author = "Peter Hofer and Michael N{\"o}ger and Manfred Eder",
year = "2022",
month = jul,
language = "English",
note = "Urban Operations Expert Talks 2022 ; Conference date: 19-07-2022 Through 21-07-2022",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - Mobile Stoppings in Complex Subsurface Operations

AU - Hofer, Peter

AU - Nöger, Michael

AU - Eder, Manfred

PY - 2022/7

Y1 - 2022/7

N2 - Emergency situations in subsurface structures hold specific challenges, particularly in the case of highly dissected underground structures (several levels, winding, high penetration depths). Successful mission accomplishment is primarily linked to the existence of a functioning ventilation system, which must be understood and controlled by the emergency forces. This paper presents the development of a physical separation of the zone transitions to enable interventions in the air flow conditions by means of ventilation elements which can be quickly deployed and relocated. Besides the availability of specialized units capable of setting up the necessary ventilation sections, expert knowledge in the SubSurface Operations Cell (SSOC) and a suitable ventilation simulation is needed to define these sections. The interdisciplinary development of a customized mobile ventilation door is an essential building block for managing complex underground operations. The establishment of zone crossings even in large cross-sections allows effective ventilation interventions in two-lane underground traffic structures with a large longitudinal extension.

AB - Emergency situations in subsurface structures hold specific challenges, particularly in the case of highly dissected underground structures (several levels, winding, high penetration depths). Successful mission accomplishment is primarily linked to the existence of a functioning ventilation system, which must be understood and controlled by the emergency forces. This paper presents the development of a physical separation of the zone transitions to enable interventions in the air flow conditions by means of ventilation elements which can be quickly deployed and relocated. Besides the availability of specialized units capable of setting up the necessary ventilation sections, expert knowledge in the SubSurface Operations Cell (SSOC) and a suitable ventilation simulation is needed to define these sections. The interdisciplinary development of a customized mobile ventilation door is an essential building block for managing complex underground operations. The establishment of zone crossings even in large cross-sections allows effective ventilation interventions in two-lane underground traffic structures with a large longitudinal extension.

KW - complex subsurface operations

KW - SubSurface Operations Cell (SSOC)

KW - ventilation flow

KW - ventilation simulation

KW - traffic tunnel

M3 - Paper

T2 - Urban Operations Expert Talks 2022

Y2 - 19 July 2022 through 21 July 2022

ER -