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Graph: http://wumm.uni-leipzig.de:8891/sparql
http://opendiscovery.org/rdf/FDP/P_2 (EasyRdf\Resource)
skos:narrower http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/FDP/P_2_1 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:narrower http://opendiscovery.org/rdf/FDP/P_2_1_04, http://opendiscovery.org/rdf/FDP/P_2_1_05, http://opendiscovery.org/rdf/FDP/P_2_1_02, http://opendiscovery.org/rdf/FDP/P_2_1_03, http://opendiscovery.org/rdf/FDP/P_2_1_08, http://opendiscovery.org/rdf/FDP/P_2_1_06, http://opendiscovery.org/rdf/FDP/P_2_1_07, http://opendiscovery.org/rdf/FDP/P_2_1_01
skos:prefLabel "Reduction of harmful flow conductivity"@en
skos:definition "Decrease in the process of development the conductivity of harmful flows."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2
http://opendiscovery.org/rdf/FDP/P_2_1_01 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:prefLabel "Prevention of harmful flows"@en
skos:note "Harmful flow prevention is practically reduced to the prevention or significant reduction of losses in useful flows. See the methods which are used for this purpose."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/FDP/P_2_1_02 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:prefLabel "Absorption of harmful flows"@en
skos:note "In order to absorb the flow, the system resistance must be increased. To do this, methods inverse to those used for useful flows are usually applied."@en
skos:definition "Change from a strong undesirable flow to a weak (absent) one through its partial or complete absorption in a path."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/FDP/P_2_1_03 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:prefLabel "Flow conversion"@en
skos:definition "Transition from a harmful flow that is well transmitted to a flow that is not well transmitted."@en
skos:example "One of the components of stealth technology is that a cloaked object is coated with a substance that converts radio waves into heat.<br/> From the pilot's point of view, the radio waves are a harmful flow. Clearly, heat travels much less well in the atmosphere than radio waves, so this conversion has a positive effect."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/FDP/P_2_1_04 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:prefLabel "Increase in flow length"@en
skos:note "Usually, many types of losses and resistance to a flow are proportional to its length. Consequently, to increase the resistance to a harmful flow, its length must be increased. <br/> Indeed, in full agreement with this trend, sources of unpleasant noise and smells, as well as harmful emissions, are, in the simplest case, simply kept away from areas where people are constantly present."@en
skos:definition "Transition from a short flow to a long flow."@en
skos:example "Labyrinth sealing.<br/> A labyrinth increases the path length many times and therefore the resistance to the harmful flow of contaminants from the outside as well as the flow of oil (parasitic flow) from the inside."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/FDP/P_2_1_05 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:prefLabel "Introduction of bottle necks"@en
skos:note "A 'bottle neck' is an area of a flow with sharply increased resistance. Obviously, introducing such areas greatly reduces the conductivity with respect to unwanted flow."@en
skos:definition "Transition from a harmful flow, free from areas where the resistance is significantly greater than the flow resistance of the pathway, to a flow containing such areas."@en
skos:example "Sunglasses."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/FDP/P_2_1_06 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:prefLabel "Introduction of 'stagnation zones' in the flow path"@en
skos:note "A 'stagnation zone' is an area of a flow where some part of it is for a long time or permanently retained. As a result, the effective capacity of the flow is reduced, although formally all of it remains in the system. Consequently, the introduction of dead spots results in the actual absorption of harmful flow into the pathway."@en
skos:definition "Transition from a harmful flow, free from areas where some part of it is for a long time or permanently stagnant, to a flow containing such areas."@en
skos:example "A respirator.<br/> Harmful dust is trapped in the filter (a typical dead zone), technically staying in the system but causing no harm."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/FDP/P_2_1_07 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:dfinition "Reduction of the conductivity of individual links of the harmful flow down to zero."@en
skos:prefLabel "Reducing the conductivity of individual flow paths"@en
skos:note "As the resistance to a flow is strongly dependent on the characteristics of the conductors, their reduction leads to a reduction in conductivity. Ideally, the conductivity should be zero. A typical example are all kinds of insulators."@en
skos:example "A kitchen potholder.<br/> Why do we use a potholder or simply use a cloth to grab a hot pan? By doing so, we introduce a link with a rather low thermal conductivity into the harmful heat flow from the pan to our hand, and the pan is now perfectly safe to hold."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/FDP/P_2_1_08 (EasyRdf\Resource)
rdf:type tc:FlowDevelopmentPattern
skos:prefLabel "Weakening the harmful flow by adding it to itself"@en
skos:definition "Transition to a harmful flow, which is weakened by adding it to itself."@en
skos:example "An automobile damper design in which the sound vibrations dampen themselves."@en
skos:broader http://opendiscovery.org/rdf/FDP/P_2_1
http://opendiscovery.org/rdf/EcoDesignNode/E1222 (EasyRdf\Resource)
skos:example "Nestl? redesign the bottle and cap to make them lighter. Also narrowed the label. "