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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

Seismic phenomena and tornadoes are among the most relevant causes of damage on the built environment and their effect on industrial plants might not be limited to mere structural damage. Under particular conditions, such as the presence of inflammable

United Nations Office for Disaster Risk Reduction (UNDRR)
Update

Mishaps involving tailings management facilities could trigger industrial disasters, spurring a UNECE-led project in Tajikistan.

United Nations Economic Commission for Europe (UNECE)
Update

The UN Office for Disaster Risk Reduction (UNDRR), the European Centre of Excellence for Countering Hybrid Threats (Hybrid CoE) and the Ministry of the Interior for Finland have joined together to develop a new stress test tool that will help countries understand and improve their ability to reduce risk of hybrid threats and cascading disaster scenarios.

United Nations Office for Disaster Risk Reduction - Regional Office for Europe & Central Asia
Update

The Lao government has ordered inspections for all dams in the country to assess their structural safety and proper maintenance.

Radio Free Asia
Documents and publications

CDP has been collecting water-related data from companies across the metals and mining sector for more than a decade. This report presents five-year trend analysis of corporate water security data from 54 of the world’s largest listed mining companies

Carbon Disclosure Project
Update

A new report provides the first large-scale analysis of the ways in which mining companies are responding to and managing tailings dam risk.

Carbon Disclosure Project
Update

Cracks in bridge or dams can cause catastrophic consequences, but a new system uses an AI detection system to spot damages after disasters.

Purdue University
Update

Four months after Vale’s iron ore mine in southeastern Brazil ruptured and collapsed, the company is now facing backlash from federal courts, emboldened regulators and sceptical investors.

The Australian Financial Review
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