186 research outputs found
On the effect of tickler chain on the catches landed by a 55 ft. trawl net
The communication deals with the results of comparative tests conducted from Cochin base to study the effect of a tickler chain on the catches landed by a 55' shrimp otter trawl. The net was operated with and without chain and 82 hauls of 61 hours and 28 minutes total duration were made. The following are the conclusions: (a) the catch of shrimp per hour of trawling is increased by about 71% due to attachment of the chain to the ground rope; (b) the attachment of the tickler chain also increased the catch of fish by 25%. The increase in the catch of shrimps and fish is probably due to the disturbance caused by moving chain attached to the foot-rope
The predicted compressive strength of a pyramidal lattice made from case hardened steel tubes
AbstractA sandwich panel with a core made from solid pyramidal struts is a promising candidate for multifunctional application such as combined structural and heat-exchange function. This study explores the performance enhancement by making use of hollow struts, and examines the elevation in the plastic buckling strength by either strain hardening or case hardening. Finite element simulations are performed to quantify these enhancements. Also, the sensitivity of competing collapse modes to tube geometry and to the depth of case hardening is determined. A comparison with other lattice materials reveals that the pyramidal lattice made from case hardened steel tubes outperforms lattices made from solid struts of aluminium or titanium and has a comparable strength to a core made from carbon fibre reinforced polymers
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Vacancy diffusion and its consequences for void growth at the interface of a stripping metal electrode and solid electrolyte
It is commonly observed that voids can nucleate and grow in the lithium anode of a solid state Li-ion battery at a location adjacent to the solid electrolyte during the stripping (discharge) phase of the battery; a similar phenomenon is observed in sodium-based batteries. It is hypothesised in the current literature that the formation of these voids is due to the coalescence of vacancies that have been generated at the electrode/electrolyte interface when metal atoms are oxidized and transported into the electrolyte: the slow diffusion of the vacancies away from the electrolyte interface into the adjacent electrode results in their coalescence and the consequent growth of voids. These hypotheses are challenged in the current study by using the Onsager formalism to generate a variational principle for vacancy diffusion. Our analysis reveals that no driving force exists for the diffusion of vacancies into a homogeneous metal electrode that thins by stripping. This finding is contrary to models in the literature which have mistakenly assumed that the vanishing flux at the current collector prevents rigid body motion (drift) of the electrode which in turn prevents thinning of the electrode during stripping. Based on our analysis, we conclude that vacancy diffusion within a homogeneous electrode is not responsible for the nucleation and growth of voids at the interface between a stripping metal electrode and a solid electrolyte
R-Charon, a Modeling Language for Reconfigurable Hybrid Systems
This paper describes the modeling language as an extension for architectural reconfiguration to the existing distributed hybrid system modeling language Charon. The target application domain of R-Charon includes but is not limited to modular reconfigurable robots and large-scale transportation systems. While largely leaving the Charon syntax and semantics intact, R-Charon allows dynamic creation and destruction of components (agents) as well as of links (references) between the agents. As such, R-Charon is the first formal, hybrid automata based modeling language which also addresses dynamic reconfiguration. We develop and present the syntax and operational semantics for R-Charon on three levels: behavior (modes), structure (agents) and configuration (system)
The influence of ortho- and para-diphenoloxidase substrates on pigment formation in black yeast-like fungi
Dothideaceous black yeast-like fungi (BYF) are known to synthesise
DHN-melanin that is inhibited by the systemic fungicide tricyclazole. The
final step of the DHN melanin pathway is the conjoining of 1,8-DHN molecules
to form the melanin polymer. There are several candidate enzymes for this
step, including phenoloxidases such as tyrosinase and laccases, peroxidases,
and perhaps also catalases. We analysed the type polyphenoloxidases that are
involved in biosynthesis of BYF melanins. For that purpose we used substrates
of o-diphenoloxidases (EC 1.10.3.1.): 4-hydroxyphenyl-pyruvic acid,
L-β-phenyllactic acid, tyrosine, pyrocatechol, 3,4-dihydroxyphenylalanine
and homogentisic acid, as well as substrates of p-diphenoloxidases (EC
1.10.3.2.): syringaldazine, resorcinol, p-phenylenediamine, phloroglucinol,
guaiacol and pyrogallic acid. Fourteen strains of black yeasts originating
from different natural biotopes were investigated. The tested strains could be
divided into four groups based on their ability to produce dark pigments when
cultivated on aromatic substrates of o- and on p-diphenoloxidases. It was
established that syringaldazine, pyrogallic acid and 4-hydrophenyl-pyruvic
acid, β-phenyllactic acid optimally promote melanin biosynthesis. Average
intensity of pigmentation of all strains studied was minimal when guaiacol was
used as a substrate. The present investigation indicates that the melanisation
process may involve more enzymes and more substrates than those commonly
recognised. Black yeasts are likely to contain a multipotent
polyphenoloxidase
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