Heat is not the only thing affecting the flow rate of honey; the water content also changes how fast or slow honey flows. The higher the water content, the lower the temp at which it freely flows. Optimum temperatures for honey flow are listed as between 10 and 30 degrees celsius. Therefore, 72 degrees Fahrenheit should produce adequate flow rate, depending on water content of the honey.
viscosity is inversely proportional to the flow rate. the actual formula is complex , but higher the viscosity slower will be the flow rate. honey flows slowly and air flows freely because of the above reason.viscosity is also essential,otherwise we would have never been able to use an ink pen.viscosity makes the ink to flow on paper
Since the honey is N3Tl4 the honey is naturally dense. The chemicals the "honey making factories" use to sweeten the honey is even more dense and sticky. These combined make it hard & difficult for the honey particles to slide over eachother, therefore moving slowly off the spoon.
Temperature affects the flow rate of propane by influencing the vapor pressure of the gas. As temperature increases, the vapor pressure of propane also increases, leading to a higher flow rate. Conversely, decreasing temperature can reduce the flow rate of propane.
Heat Rejection = mass x specific weight x specific density x difference in temp
Differential scanning calorimetry (DSC) measures the heat flow in a sample as its temperature changes. It does this by comparing the heat flow in the sample to a reference material as both are heated or cooled at the same rate. The difference in heat flow between the sample and the reference material is used to determine the changes in the sample's thermal properties.
eat my sweet penis
Heat effects the flow rate of lava because the hotter the lava is, the less viscous it is which allows it to flow faster than if it had a slow flow rate. If it has a low temperature, then the flow rate will be much slower because it has a high viscosity.
viscosity is inversely proportional to the flow rate. the actual formula is complex , but higher the viscosity slower will be the flow rate. honey flows slowly and air flows freely because of the above reason.viscosity is also essential,otherwise we would have never been able to use an ink pen.viscosity makes the ink to flow on paper
actual heat flow rate/ideal heat flow rate if the whole fin was the same temperature as the base of the fins This applies to finned surfaces usually in heat exchangers
honey has a higher flow rate then molasses because it has less particles that are more farther apart. This means that it is faster for it to come out of the bottle. Also molasses has a much higher denisty than honey. ( Denisity ) = Heavyness
A decrease in the overall heat transfer coefficient due to fouling or dirt buildup can reduce the efficiency of heat transfer in a system. This can lead to a decrease in the water flow rate as the system needs to compensate for the reduced heat transfer efficiency. Increased resistance to heat transfer can result in higher energy consumption and reduced performance of the system.
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It affects the rate of flow of the lava. Hotter means faster flow
Yes there is an optimum flow rate. Kind of! The heat pump manufacturer will post on the internet or in the users guide what the maximum and mimimum flow rate through his heat pump should be. I take it that the optimum then, is anywhere within that range. My pump manufacturer prescribes 20 GPM to 70 GPM for the heat pump I will be using. Too low a flow causes the heat pump to overheat. Too high a flow is hard on system components. dburr
Increasing the temperature the reaction rate increase.
In most realistic situations heat flow can be said to occur from a region of higher temperature to one of lower temperature. As the region of higher temperature loses heat and the other region gains heat their temperatures become closer and the rate of heat flow diminishes. If, however, it can be contrived to maintain the source of heat at a constant temperature and the destination of the heat also at a constant temperature, then the heat will flow between the two at a constant rate, called steady heat flow.
Adhesion can affect flow rate by increasing resistance, causing the fluid to flow slower as it sticks to the surface it comes in contact with. This can be observed with low adhesion surfaces, where fluids flow faster due to reduced interaction with the surface.