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Technological hazard

Technical or technological disasters are caused by events that can be intense and sudden, induced by human processes. They originate from technological or industrial conditions, dangerous procedures, infrastructure failures or specific human activities (UNGA, 2016).

Technical systems are complex, with many dependent subsystems. The failure of one element within this system can cascade throughout the chain, causing a series of failures leading to a disaster. Technical hazards are increasing due to the scope of technological expansion. They include industrial activity that includes dangerous conditions, processes, all transport systems (land, sea, air), defensive or offensive weapons systems and power plants.

By 2050, most of humanity will live downstream of large dams built in the 20th century.

A new set of emerging technological risks under the Sendai Framework includes Information and communications technology (ICT)-related hazards. The increasing dependence upon complex large-scale network architectures of information technologies also increases exposure to cybersecurity threats. These threats include computer viruses, worms, Trojan horses, malware, spoofing attacks, identity theft, the theft and illegal disclosure of data, the loss of data and contamination of data. They have the potential to disrupt essential infrastructure operations such as communication, health, banking, transportation, energy, education and many other services.

Risk factors

  • Ageing, abandoned or idle installations.
  • Insufficient institutional and legal capacities.
  • Natural hazards: storms, landslides, floods or earthquakes can cause industrial accidents.

Vulnerable areas

  • Residential communities around industrial establishments tend to be most at risk because of their proximity.

Risk reduction measures

  • Assess the risks before planning and building critical infrastructure.
  • Develop policies and practices for continuity management.
  • Integrate the risks into planning, foresee and reduce cascading effects.
  • Create a hazard map to identify people at risk and their vulnerability.
  • Draft national, regional and local response plans.
  • Put in place early warning/monitoring systems to inform response.
  • Ensure contingency and response plans are in place at a national and local level to evacuate people on time.
  • Assess new technologies.
  • Improve crisis communication before, during and after the event.
  • Organize training and exercises for complex scenarios involving multiple interdependent failures.
  • Educate and raise awareness on potential risks.

Latest Technical Disaster additions in the Knowledge Base

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by Flickr user PIAZZA del POPOLO / Joanna, Creative Commons BY 2.0, http://www.flickr.com/photos/piazzadelpopolo/6653701961/
Update

According to Novinite, Bulgaria's President Rosen Plevneliev stressed for a series of measures to deal with the damage and devastation from recent floods in southern Bulgaria following a dam failure...

Novinite.com, Sofia News Agency
Update

'My call is to donors such as Korea and Japan to work with experienced Asian civil society organizations such as Save the Children to properly fund and adequately support disaster risk reduction and disaster preparedness activities across Asia'...

Korea Times Co.
by Flickr user Adam Jones, Ph.D. / Adam Jones, Creative Commons BY-SA 2.0, http://www.flickr.com/photos/adam_jones/3774484088/
Update

Kochi, one of the major industrial belts, is vulnerable to chemical disasters. 'Prevention is the primary step and for that we need to conduct regular checks and inspections. But, we don't have a laboratory with required equipment'...

IBNLive, CNN-IBN
Update

'We are talking about the worst-ever marine environmental disaster in New Zealand. The salvage is also likely to cost $300 million or more. As a maritime nation, it's important we have confidence in our ability to avoid accidents and also be prepared when accidents happen'...

Stuff
Documents and publications

This report analyses the top 10 risks in five categories - economic, environmental, geopolitical, societal and technological - and also highlights "X Factor" risks, the wild card threats which warrant more research, including a volcanic winter, cyber

World Economic Forum (WEF)
Documents and publications

The purpose of the EU Stress Test was to analyse the security situation of all European nuclear power plants with regard to the lessons learned of Fukushima. This report presents the results for Switzerland’s participation in the EU Stress Test with

Swiss Federal Nuceal Safety Inspectorate
Update

Les exploitants ont jusqu’à fin mars 2012 pour apporter les preuves de la maîtrise d’un séisme survenant une fois tous les 10’000 ans et de la combinaison séisme – défaillance due au séisme de barrages dans la zone d’influence des centrales nucléaires...

Swiss Federal Nuceal Safety Inspectorate
Documents and publications

This report sets out the economic costs of high-impact, low-probability (HILP) events and how the impacts of a shock spread across sectors and countries in today's globalized world. It argues that governments and businesses remain insufficiently prepared

Chatham House
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