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Eingeladener Vortrag
- nein (149)
An analysis has been presented pertaining to the use of a convex
bottom tank shape instead of an elliptical, for a road tanker.
Two analyses have been made, concerning the static and the dynamic
relative performance expectations of such tank shape when compared
with the elliptical shape performance.
The outputs of both analyses suggest that the level of average benefit
due to using the proposed shape, is around 10%, with a maximum
benefit observed in the dynamic performance in the case of the
minimum fill level.
Correlation between static and dynamic outputs. Manufacturing.
Avoiding road crashes has been the purpose behind many specialized software and hardware systems, involving both active and passive safety principles. Global Positioning technologies were incorporated into the transportation systems with the main purpose of acquiring the position of the vehicle under a continuous basis, for security and economy purposes. However, the GPS data can also be used for assessing the level of safety at which the vehicle is driven. On the basis of the essential data available from commercial GPS devices, in this paper we propose a combined performance measurement to assess the road safety level at which the vehicle is being driven. Such performance measure uses GPS data of the vehicle displacement, including the speed and the acceleration, as well as the course (latitude and longitude coordinates), in an integral driving assessment formulation that can run in real time. Results from the experimental use of this formulation suggest that the level of safety in the driving is time dependent, and that there are risky situations when different factors converge.
The proposed mechanism is based on a cam design and is independent of any external energy source.
Conclusions
Issue 1: An accelerated wear tip of the cam shaped journal .
Issue 2: The spherical rollers proposed for the bearings would be underused, as the contact force will be downwards, and such bearing has supporting capacity in both vertical directions.
In the recent years, more and more products in construction and automotive industry are bonded by adhesive tapes instead of mechanical fasteners but there is no sufficient understanding of how these bonded, layered materials behave in fires. Our research project gives an insight of how adhesives and substrates interact with each other in different fire scenarios and how flame retardants function in pressure sensitive adhesive (PSA) tapes. A systematic investigation on the burning behavior of PSA tapes as free-standing films, as top layers on different substrates and as sandwich-like adhesive joints was performed. The burning behavior of free-standing PSA tapes and those used as a coating was significantly improved by using phosphorus-based flame retardants. Furthermore, it was shown that, depending on tape structure and substrate, the PSA tape can lower the fire risk by acting as an intermediate protection layer in bonded materials.
The interest in hydrogen-based green energy is increasing worldwide, and the same is true for hydrogen-powered vehicles. Among the possible solutions to store hydrogen in such vehicles, cryogenic tanks equipped with multi-layer insulation (MLI) are the most promising to increase the amount of energy stored per unit volume. However, MLI is affected by severe deterioration when exposed to an external source of heat such as a fire following a car accident, leaving the tank unprotected and leading to failure in a relatively short time. In this work, a one-dimensional model to evaluate MLI thermal degradation when a liquid hydrogen tank is exposed to fire is presented. The relevance of taking MLI degradation into account when simulating the pressure increase due to external fire exposure is here demonstrated through the analysis of several case studies. The results show that MLI systems performance depletes within a few minutes of exposure to hydrocarbon poolfire.
Greenhouse gas emissions caused by human activities remain one of the most important subjects of international discussions. The routine gas flaring has been estimated to be responsible for as much as 1% of global carbon dioxide emission per year. Gas flaring analysis is one of the key-interest subjects in remote sensing community. Some of the existing publications use remote sensing techniques with satellite imagery to derive information about flame temperature and further about to estimate the volume of the flared gas. The often missing element is an in-situ measurement analysis of gas flames, combining signals recorded by a camera on-ground and data on flared gas volume, temperature and gas type. In order to address this problem, an experiment was conducted, in which the gas flame was recorded by thermal cameras on-ground, simultaneously to an aerial survey and the gas flow was measured at the same time on-ground. The measurement setup was designed in cooperation between Institute of Optical Sensor Systems of German Aerospace Center (DLR) and German Federal Institute for Materials Research and Testing (BAM). Cameras recording in thermal and mid-wave IR wavelengths were used to record the burning gas on-ground and from the aerial survey. All the measurements have been compared and statistically analysed with respect to the recorded temperature. The purpose of the examination was to describe the signal changes in thermal imagery with respect to changes in energy, emitted by the burning process. This approach will allow for later calculation of the amount of energy in form of thermal radiation sent from the flame to the satellite.
Avoiding antimony – effect of Ca(H2PO2)2 on smoke emission and fire behaviour in brominated ABS
(2023)
The replacement of antimony trioxide (Sb2O3) in brominated flame-retardant ABS (ABS/FR) is of great interest. This study investigates the influence of calcium hypophosphite (CaP) in ABS/FR on flame retardancy and smoke emission. Different amounts of talc are added to ABS/FR/CaP to evaluate the influence of an inorganic barrier on smoke emission and flame retardancy. The cone calorimeter unveiled a reduction by 46% in PHRR for ABS/FR/CaP. Additional 8 wt.-% talc (ABS/FR/CaP/8Talc) reduced the PHRR by 61%. ABS/FR/CaP exhibited a more condensed phase action, which resulted in less smoke emission. The study investigates the influence of CaP in ABS/FR on the smoke toxicity, smoke density and the smoke particles distribution in the smoke density chamber (ISO 5659-2) coupled to a FTIR spectrometer and electrical low pressure cascade impactor (ELPI).
Fire resistance testing of components made of carbon fibre reinforced polymers (CFRP) composites usually demands intermediate-scale or full-scale testing. In this study, a bench-scale test is presented as a practicable and efficient method to assess the improvement in structural integrity of CFRP with different protective interlayers during fire.
Fire stability is one of the biggest issues of carbon fibre reinforced polymer (CFRP) composites, particularly when they are using in load bearing applications. As soon as the glass transition temperature of polymer matrix (100-200°C) is achieved, the composite loses its structural integrity, what leads to the distortion and failure. The principal fire stability test is based on simultaneous application of fire and mechanical load. Since the carbon fibres can transfer the tensile loads quite well, the compression load is chosen as a required mechanical load for a test. The fire tests were preceded by a static load test at room temperature to determine ultimate failure load. The specimen was loaded with a compression force until the failure load was reached, which was observed as a buckling. For the fire tests, 10% of compression failure load and direct flame of a fully developed fire (heat flux ≈ 180 kW m-2) were applied simultaneously to the specimen, while the time to failure was measured.
The possibilities of bench-scale fire stability testing were presented by investigating new types of laminate structures, which exhibit promising flame retardancy and fireproof properties. The new approach of CFRP laminate differs with a protective concept. Every system consists of two different interlayers (titanium foil, thermoplastic foil PEI, ceramic layer WHIPOX, rubber tape Pyrostat, basalt fibres and kenaf fibres), where the one layer constitutes the fireproof protection, that delays the rise of temperature in the rest of laminate, and the second layer provides very good structural connection with carbon fibre layers, thus improves the mechanical integrity of CFRP composite in fire.
The time to failure of CFRP composite was 17s. Protective systems significantly enhance the fire stability and increased time to failure by 3 to 10 times. Thicker specimens showed longer resistance time, however CFRP laminate with ceramic layer and titanium foil presented outstanding results and the best performance. The protection with Kenaf and basalt fibres offered a natural fibre solution with also good fire resistance performance
Although bench-scale tests are limited with respect to assessing the performance of components and structures, they are valuable in the assessment of different materials concepts. Furthermore, the reduced effort of conducting bench-scale test (lower costs, time, personnel resources) makes it more practical and effective.
Overview of the state of the art and current trends with the main topics:
- renewable sources in flame retardant polymers (flame retarded bio-polymers and biocomposites; bio-flame retardants, renewable adjuvants from industrial waste)
- flame retardancy meets sustainability
- concepts between analogy and out-of-the-box.
Renewable alternatives for common thermoset resins are demanded to go for sustainability. The objective is to create a flame retarded epoxy resin from a commercial bio epoxy resin with halogen free inorganic and organic flame retardants, respectively. Alumina trihydrate, aluminum diethyl phosphinate, a DOPO-based phosphonamidate and ammonium polyphosphate seem to have promising performances. Properties are enhanced with different bio fillers: pyrolyzed cocoa shells and plant waste (provided by Otto A. Müller Recycling GmbH, thanks!), short fibers and nonwovens of the natural fiber kenaf, hydroxypropyl-ß-cyclodextrin and sulfobutylether-ß-cyclodextrin.
Fire performance is investigated by cone calorimeter examinations, LOI and UL-94 ratings. Thermal analysis is given by TG-FTIR and DSC measurements.
Combinations of flame retardants and bio-fillers lead to reduced PHRR and THR, reach V0 in UL-94 and have a significant increase in LOI of up to 37 vol.-%. 10 % ammonium polyphosphate with 10 % pyrolyzed cocoa shell performs best, builds a magnificent protective layer, and shows good intumescence.
Small and large-scale tests have been carried out Pressure vessel – to improve numerical modelling Different types of fire must be distinguished Modelling of vessels were discussed Test configuration has been developed to see what happens in the vessel First results encourage us to continue the Research Thermohydraulics needs further work (boundary layers).