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Testing of hazardous materials and evaluating their hazardous properties concerning transport, handling or use is essential for the prevention of incidents. For this purpose, test methods have been developed and published that are used worldwide today (European Union, 2008, United Nations, 2019). For the evaluation of test results their correct measurement is of importance. On basis of the interlaboratory tests carried out by BAM and PTB within the framework of the CEQAT-DGHS in the last years, it is shown that there is a need for improvement in all the test methods examined so far. In addition to the interlaboratory tests further quality measures are mandatory (ISO, 2017). For example, methods for verifying the test equipment used in the laboratories should be developed.
The development of a verification method is demonstrated using the test method UN Test N.5 as an example. This test method is used to evaluate substances which in contact with water emit flammable gases. The basic principle of the verification method is demonstrated by Lüth et al. (2019). Requirements and difficulties during this development are discussed.
This test procedure UN Test N.5 has now been modified at BAM so that it is possible to measure very small or large amounts of both flammable and/or toxic gases over a long period of time in a validated and verified test apparatus, utilizing the principle of a gas collector. This allows us to determine slow as well as fast gas evolution rates. The determination of the evolution rates (e.g. total gas amount or flow rate) of toxic gases is of special interest because of the ongoing discussion how to evaluate and quantify toxic gases which are formed from a substance due to contact with water. Up today no validated test procedure for the measurement of evolution rates for toxic gases is described. It is shown that the newly modified test method could help to solve this problem.
Flammable gases and vapors
(2013)
ULLMANN'S Encyclopedia of Industrial Chemistry is the benchmark reference in chemistry and chemical and life science engineering, covering inorganic and organic chemicals, advanced materials, pharmaceuticals, polymers and plastics, metals and alloys, biotechnology and biotechnological products, food chemistry, process engineering and unit operations, analytical methods, environmental protection, and much more.
Approaches towards a generic methodology for storage of hazardous energy carriers and waste products
(2013)
Energy carriers – either conventional or 'new' ones – have to be provided in large amounts to meet the requirements of permanent availability and reliable supply of electricity. Depending on their state of aggregation, energy carriers are either stored in large masses (if solid or liquid) or at elevated pressures (if gaseous). Both impose the hazard of large-scale fire, in the latter case additionally the danger of explosion or unintended release. Very similar hazards occur for wastes. Solid wastes are present in large masses and only a small part is recycled. Most of the solid wastes are used in energy conversion. The main gaseous waste is CO2. During capturing also the hazard of unintended release exists. In this article, existing approaches for safe storage and fire prevention are discussed and a generic methodology is outlined. This methodology consists of the following steps:
gaining knowledge about the behaviour of the material stored (reactivity, thermal stability, etc.),
assessing the environmental conditions for the storage site (neighbourhood, safety distances, etc.),
assessment of prospective consequences of an incident and
development of individual loss prevention conceptions.
All steps require both experimental testing and theoretical considerations about accident scenarios as integral parts of the methodology.