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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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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
by Flickr user lassi.kurkijarvi / Lassi Kurkijärvi, Creative Commons BY-NC 2.0, http://www.flickr.com/photos/lassi_kurkijarvi/3870398374/
Update

Industry operators must come forward by 30 June with measures they would take in response to floods and earthquakes, 'preventing a serious accident or limiting its spread' and 'limiting massive [radioactive] releases', reports the BBC...

British Broadcasting Corporation (BBC)
Update

The Hungarian government calls on an EU-wide risk-sharing community of industrial actors, designed to meet the needs of future challenges related to major industrial disasters considering the magnitude of damages caused by major industrial accidents...

New Europe - Media Company S.A., Brussels News Agency, the
Documents and publications

This report examines the causes of the blowout of the Macondo well that occurred in the Gulf of Mexico on April 20, 2010 and provides a series of recommendations, for both the oil and gas industry and government regulators, intended to reduce the

National Academies Press
Update

The latest investigative report on the Deepwater Horizon disaster in the Gulf of Mexico asserted that industry was far more focused on drilling and profits than it was on the need for preparedness and oversight...

New York Times, the
by Flickr user Bousure, Creative Commons BY-NC-ND 2.0, http://www.flickr.com/photos/30430801@N06/3118918048/
Update

On the sidelines of COP17: 'the world had to pay more attention to external natural events such as seismic events and tsunamis, as well as severe accident management and emergency preparedness needed to be improved.'...

Engineering News, Creamer Media
Update

'Based on the lessons from Fukushima, we need to add how well prepared an organization is to mitigate, or to handle, an emergency in the unlikely event that one does occur,' says George Felgate, managing director of the World Association of Nuclear Operators (WANO)...

Nature Publishing Group
by Flickr user pictinas / Daisuke Tomiyasu, Creative Commons BY-NC-ND 2.0, http://www.flickr.com/photos/pictinas/5702428165/
Update

To independently check the reliability of the tsunami countermeasures, the Shizuoka Prefectural Government formed a tsunami committee within its disaster prevention and nuclear power science council...

Mainichi Newspapers Co., Ltd., the - Mainichi Daily news, the
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