BOILING
• Phase change phenomenon where in transformation of liquid to vapour occurs at the saturation temperature of the fluid. It occurs at a solid/liquid interface due to convection heat transfer from the solid and usually occurs at surface temperatures higher than the saturation temperature of the fluid Agitation of fluid by vapor bubbles provides large convection coefficients Modified Newton’s law of cooling qs'' h Ts Tsat Te
•
•
•
BOILING – CLASSIFICATON
– Pool Boiling - the liquid is quiescent and its motion near the surface is due to free convection and mixing induced by bubble growth and detachment – Flow Boiling - fluid motion is induced by external means as well as by free convection and bubble induced mixing – Subcooled Boiling – fluid at a mean temperature below the saturation temperature – Saturation Boiling - fluid at a mean temperature equal to the saturation temperature
BOILING CURVE – POOL BOILING
• • • • Nukiyama’s experiment on Pool Boiling Experiments at atmospheric conditions Using nichrome wire (melting temperature ~ 1500 k) Heat Flux controlled
BOILING CURVE – POOL BOILING
REGIMES OF POOL BOILING
• Free Convection Boiling Te 5 C Little vapor formation Liquid motion is principally due to single phase natural convection Onset of Nucleate Boiling – ONB (ΔTe~ 5oC)
• Nucleate Boiling 5 Te 30 C
Isolated Vapor Bubbles 5 Te 10 C – Liquid motion is strongly influenced by nucleation of bubbles at the surface – Heat transfer coefficient increases rapidly with increase in heat flux – Heat transfer is principally due to contact of liquid with the surface (single-phase convection) and not to vaporization Jets and Columns 10 Te 30 C – Increasing number of nucleation sites causes bubble interactions and coalescence into jets and slugs – Liquid/surface contact is impaired and h starts to decrease
• Critical Heat Flux - CHF, qmax Te 30 C
Maximum attainable heat flux in nucleate boiling and is of the order of 1 MW/m2 at atmospheric pressure An increase in heat flux beyond CHF causes the surface to be blanketed by vapor, and the surface temperature can spontaneously achieve a value that potentially exceeds its melting point If the surface survives the temperature shock, conditions are characterized by film boiling
• Film Boiling
Heat transfer is by conduction and radiation across the vapor blanket
• Transition Boiling (only for Temperature-Controlled Heating)
Surface conditions oscillate between nucleate and film boiling, but portion of surface experiencing film boiling increases with excess temperature Te . Also termed unstable or partial film boiling.
Nucleate Boiling
Film boiling
REGIMES OF FLOW BOILIN
CONDENSATION
• Phase change phenomenon where in transformation of vapour to liquid occurs at the saturation temperature of the fluid. Heat transfer to a surface occurs by condensation when the surface temperature is less than the saturation temperature of an adjoining vapor. Classification
– Film condensation – Drop wise condensation
•
•
FILM CONDENSATION
• Entire surface is covered by the condensate, which flows continuously from the surface and provides a resistance to heat transfer between the vapor and the surface Characteristic of clean, uncontaminated surfaces
•
FILM CONDENSATION
DROP WISE CONDENSATION
• Surface is covered by drops ranging from a few micrometers to agglomerations visible to the naked eye Thermal resistance is greatly reduced due to absence of a continuous film Surface coatings may be applied to inhibit wetting and thus formation of film
•
•
You May Also Find These Documents Helpful
-
Instead of taking the temperature of the gas, the temperature of the boiling water was taken and was transferred.…
- 678 Words
- 3 Pages
Good Essays -
Objective: The main goal of this lab is to learn how separation of binary liquid mixtures is performed. Especially when the two liquids have boiling points varying by about 30° C. Hexane can be separated from toluene in this experiment because of the difference in their boiling points. Since toluene has a higher boiling point, it will left at the bottom while the hexane starts to boil out and collect in the Hickman still. GC measurements help us in determining how accurate our data is by making a graph of the amount of hexane and toluene in each fraction. Also this lab gives experience with semi-micro distillation in order for experiments in the future that might need this purification setup.…
- 1041 Words
- 5 Pages
Powerful Essays -
Evaporation, the process by which molecules undergo the a spontaneous transition from the liquid phase to the gas phase. Evaporation is the opposite of condensation. The remaining residue in the evaporation cup is the substance that had been dissolved in the solvent.…
- 854 Words
- 4 Pages
Good Essays -
* Heating a liquid causes the particles to move faster and faster as temperature increases. Eventually, the particles will flow so fast that the attractions they have for each other are unable to hold them together. At this point, a different temperature for different substances, the particles will separate from each other and will reach the gas phase.…
- 5317 Words
- 22 Pages
Good Essays -
High heat capacity --water carries away heat when it changes from a liquid to a gas…
- 2555 Words
- 14 Pages
Satisfactory Essays -
When a substance is undergoing a phase change but the temperature stays the same the energy is in the form of latent hear of fusion (melting) or latent heat of vaporization. If a substance is changing from solid to liquid then it absorbs heat from the surroundings in order to melt breaking the bonds that hold the molecules together. Gas to liquid is condensation which heat is emitting out of the substance and being removed.…
- 1310 Words
- 6 Pages
Good Essays -
The purpose for this experiment is to analyze the melting and boiling point of specific types of liquid and solid. It is useful to know their melting and boiling point of a substance to state whether or not such substance is pure or if it is combination of different chemcials.…
- 359 Words
- 2 Pages
Satisfactory Essays -
Purpose: The purpose of this experiment is to determine the boiling point of liquids and the melting…
- 384 Words
- 2 Pages
Good Essays -
The learning goal of this experiment is to view and experience the melting point and boiling point of different substances.…
- 1437 Words
- 6 Pages
Better Essays -
The purpose of partI in this experiment is to identify a variety of unknown substances’ properties using observations of the temperature changes that occur during evaporation. We know that substances with weaker intermolecular forces, such as London dispersion, will have a faster vaporization rate and thus a higher temperature difference compared to those with stronger molecular bonds such as hydrogen and dipole-dipole forces. By measuring the average kinetic energy (or the temperature) of the liquid left behind after some evaporation takes place, we can determine its type of intermolecular forces and ultimately identify the unknown liquid when compared to other substances. Another purpose of part I of this experiment is to reiterate the use of web- based data and tables to organize our numerical results as well as deltaHvapand delta T calculations of substances. Also to teach the proper use and technique of laboratory materials such as the clamp apparatus, beaker, pipet and thermometer.…
- 1058 Words
- 5 Pages
Good Essays -
In liquids, particles are being held together by bonds, however the particles are still able to move around ("Evaporation"). Some of these particles have a lot of energy. These particles with a lot of energy are able to escape in a form of gas even before the liquid reaches its boiling point ("Evaporation"). If there are not a lot of forces holding the liquid particles together the particles would have a less chance of changing state. The graph shows that the average methanol temperature decreased the fastest after being stable for the first 20 seconds (see Figure 1).…
- 188 Words
- 1 Page
Satisfactory Essays -
In this lab, we brought emptied out aluminum cans.We filled these cans with a small amount of water. We began to boil the water to convert liquid to gas and exert gas particles. After the can was placed on the heating plate, we got a container of cold water. Soon later, the water inside the can was creating steam that was becoming more and more visible. Once we believed the water was hot enough, we got tongs to pick the can up. By picking up the can, the gas particles began to receive more space to move around away from each other, as the hot water was moving around. We held the can above the container of cold water, which had particles moving around each other. Once the can was placed in the water, the can was crushed. The can was crushed…
- 160 Words
- 1 Page
Satisfactory Essays -
| The flame will change the temperature of the water being evaporated. If I didn’t the control it might not boil or it could get to hot.…
- 285 Words
- 2 Pages
Good Essays -
Evaporation and transpiration (evapotranspiration) are components of hydrologic cycle, which at principle, can be calculated from meteorological observations such as temperature, humidity, radiation, wind speed, etc. The process, however, is quite complex and a substantial literature has been produced on it. In this chapter our focus is mainly on the concept and simple estimations of evaporation and transpiration.…
- 2190 Words
- 9 Pages
Good Essays -
Evaporation is a type of vaporization of a liquid that occurs from the surface of a liquid into a gaseous phase that is not saturated with the evaporating substance. The other type of vaporization is boiling, which, instead, occurs within the entire mass of the liquid and can also take place when the vapor phase is saturated, such as when steam is produced in a boiler. Evaporation that occurs directly from the solid phase, as commonly observed with ice or moth crystals (napthalene or paradichlorobenzine), is called sublimation.…
- 508 Words
- 3 Pages
Good Essays