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25 [Latest] Chemical Reaction Interview Questions And Answers PDF


Real Time Chemical Reaction Interview Questions with Answers PDF

•    Why Should A Magnesium Ribbon Be Cleaned Before Burning In Air?
Magnesium ribbon is cleaned before burning to remove the coating of imprities such as oxide so that reaction takes place properly.

•    Why Is Double The Amount Of Gas Collected In One Of The Test Tubes In Electrolysis Of Water Than Th Amount Collected In The Other? Name This Gas?
On electrolysis of water, it decomposes to give hydrogen and oxygen.
          2H2O – 2H2 + O2
This, water decomposes to give hydrogen and oxygen in the ratio of 2:1 so, The double amount of hydrogen is collected in one test tube as compore to oxygen in other test tube.

•    Why Should Chemical Equation Be Balanced?
According to cow of conservation of mass, the total mass of reactant is equal to the mass of product This is possible only it the number of atoms of each element is equal on two sides of equation So, a chemical equation should be balanced.

•    Why Is Respiration Considered As An Exothermic Reaction? Explain?
During respiration digested carbohydrate as glucose combines with oxygen to release energy which is utilized by our body.
It is considered exothermic reactions.

•    Why Are Decomposition Reactions Called The Opposite Of Combination Reactions?
In a decomposition reaction a single substance splits to form two or more than two substances, where as, in combination reaction two or more substances combine to form a single substance So, it is opposite to each others.

•    A Shiny Brown Colored Element ‘x’ On Heating In Air Becomes Black In Cooler Name The Element ‘x’and Black Colored Compound Formed?
The element X is copper. Black colored compound is copper oxide.

•    Why Do We Apply On Iron Articles?
Iron articles are applied by paints so that air cannot come in direct contact with iron. As a result it prevents rusting.

•    Oil And Fat Containing Food Items Are Flushed With Nitrogen. Why?
In the presence of oxygen fatty food are oxidized to compound and becomes rancid. Flushing with nitrogen cut off oxygen and protects the food from rancidity.

•    What Is Entropy?
Entropy is a measure of disorderliness. It explains the system's closeness to equilibrium.

•    What Is Gibbs Free Energy?
It is the available energy or the greatest amount of mechanical work done by a system at constant temperature and pressure.

•    At What Temperature Does Water Have Maximum Density?
At 4 deg C the density of water is 1000 kg/cu.m.

•    What Is An Isochoric Process?
It is a thermodynamic process at constant volume. Also called isovolumetric process.

•    What Is A Cstr And What Are Its Basic Assumptions?
Continuous Stirred tank Reactor. Assumptions are steady state, constant density, constant temperature, one irreversible first-order reaction.

•    List The Advantages And Disadvantages Of A Pfr?
Advantages: Continuous operation, high conversion rate, less cost for operation. Disadvantages: temperature gradients, high maintenance cost.

•    Explain The Functioning Of A Three-way Catalytic Converter?
Carbon monoxide oxidation, Nitrogen oxide reduction, uncombusted hydrocarbon oxidation.

•    Explain Global Warming From A Common Man's And An Engineer's Perspective?
In a common man's perspective, the increase in world temperatures is global warming. In an engineer's perspective, it is the average temperature increase in the surface temperature of the earth, mainly due to increased concentration of greenhouse gases. The greenhouse gases capture the heat radiated by the earth, inside the atmosphere, enabling the increase in temperature.

•    What Is Carbon Sequestration?
A technique for capturing carbon dioxide for a long term in order to reduce its effects on global warming.

•    What Are The Greenhouse Gases In Earth's Atmosphere?
Water vapor, carbon dioxide, ozone, methane, nitrous oxide and CFC.

•    Define Octane Number?
It is the resistance to detonation of a fuel in a spark ignition engine compared to the isooctane-n-heptane mixture.

•    Explain The Working Of A Spray Condenser?
A spray condenser is used for the condensation of humid water vapor by direct contact with water. The inlet water is at a temperature less than the dew point of air in the chamber.

•    How Does A Cyclone Separator Work?
It works as gas-solid separation equipment using vortex formation.

•    Define Viscosity?
Viscosity is a measure of a fluid's resistance to shear stress.
•    What Is Critical Radius Of Insulation?
The critical radius of insulation is the thickness of an insulation that does not affect the convection resistance. It is the ratio of the thermal conductivity of the insulator to the convection heat transfer coefficient.

•    What Is A Black Body?
An ideal object that absorbs all electromagnetic radiations.

Latest Chemical Reaction Interview Questions for freshers and Experienced pdf

70 [Latest] Chemical Engineering Interview Questions And Answers PDF

Real Time Chemical Engineering Interview Questions And Answers PDF

What Are Some Common Causes Of Gas Pipeline Vibration 20 Carbon Steel Line?
Check / consider the following:
o  The upper pressure range and /or the smaller pipe diameters prompts me to investigate the possibility that the gas is reaching critical flow somewhere downstream within the pipe. When a gas gets to critical flow, sonic booms (producing vibration) are expected. In fact, one of the main means by which the additional pressure in the pipe is lost.
o  If the source is a compressor, look for surging.
o If the source is a tower, look for pressure cycling in the tower
o  Look at critical flow through any control valve that may be in the line.

While There, Are Many Tests Available To Detect Leaks On Vessels, Is There A Technology Available To Quantify The Leak, Or Measure The Flow Through A Leak?
The RheoVac air in-leak monitor by Intek, Inc. in Westerville, OH is a viable meter that gives the actual air in-leakage flow rate. It also gives you exhauster capacity and a vacuum quality reading.

Is There Any Way To Repair A Valve That Is Passing Leaking Internally Without Taking Our Process Offline?
A 600 psig, 3" steam line is experiencing "passing" or internal leakage. If you order to replace the valve, the process would have to be taken offline. A temporary solution to the problem is sought to get the plant to their next scheduled shut down ANSWER Research on-stream leak sealing services. This problem is quite common. What they would do in this case is drill a hole into the bypass valve on the upstream side but not completely into the line. They would then tap the hole and install one of your injection fittings, which is like a small plug valve. They would then take a long 1/8" drill bit and drill through the open injection fitting and into the pressurized line.
The drill bit is then removed and our injection equipment is then attached. Sealant (heavy fibers and grease) is pumped into the line and caught in the flow, which will bind up against the leaking seat on the bypass valve. If done properly, this technique can be both effective and safe.

When Using A Pumping Loop To Mix Two Miscible Fluids In A Tank, When Can The Content Are Considered Well Mixed?
A rule of thumb is to turn the tank over three (3) times and then sample the tank for mixture properties. By "turn the tank over”, we mean to force the entire volume of the tank through the pump at least three times. More turnovers may be necessary, but three times is a good starting point.
What Are Some Good Uses Of Low-grade Steam At 12 Atm And 1920c?
There are various traditional methods to employ waste steam in an operating plant:
1. You can generate electricity through a steam turbine-generator set. The electricity is usually put back in the line; this is the idea behind the "Co-Gen" concept used today in many USA plants. Steam turbines can effectively use saturated steam supply down to 75 - 100 psig. In special conditions, they have used down to 50 psig as a turbine steam supply. I have used steam as low as 100 psig.
2. You can pre-heat process streams that require pre-heating; this is done by applying heat exchangers.
3. You can employ the waste steam as a refrigeration source by employing it in vacuum jet ejectors and producing 50 of cooling water.
You have to consider these as viable options if you can identify the heating, cooling and energy conservation requirements. An economic analysis is required to identify the most attractive option. You usually utilize a Discounted Cash Flow analysis to base your decision and that means you must study each case as to savings generated. A fourth method might be that you can use the steam for environmental heating (if you live in a cold climate).

What Is A Good Way To Get Started In Doing A Plant-wide Steam Consumption Analysis?
It is unclear as to whether or not you know the total steam consumption. If you do not, one way to get it is to take the nominal capacity of the boiler in terms of heat, i.e. the total rated Btu/hr. This is usually available either through the documentation you have for the boiler or even on the nameplate. You also must know the steam pressure you are producing. Using the steam tables, get the enthalpy of the steam and divide it into the nominal boiler capacity to get the total rate. I hope that you also know how much of the capacity you are using, 50%, 75% etc. Multiply this by the total lb/hr to get your rate.
Another way to get the capacity is by using the amount of boiler feed water you are sending to the boiler and the known level of steam you are producing. Do not forget to include the blow down in your heat & mass balance. Getting the rate to each plant is more difficult if you are lacking in instrumentation. Use as much plant instrumentation as possible; flow meters, pressure and temperature indicators. If you do not have a meter in each header to each plant, then see if you have them in sections or to pieces of equipment using the steam. Another way is to measure the amount of condensate you are returning to the boiler. If you are dumping the condensate, you may be able to collect and measure the amount in a pail from each source. Another way is to use the process.

Are There Any General Rules For Flushing Slurry Lines?
Slurry lines should be flushed with a minimum fluid velocity of 10 ft/s and the total flushing liquid volume should equal 3-6 times the total piping volume.

What Is Pneumatic Conveying?
Pneumatic conveying is a method of moving bulk solids from one place to another with the help of a carrier gas. A differential pressure is applied inside a conveying line. The flow always moves from a region of higher to lower pressure.

What Types Of Pneumatic Conveying Systems Are Typically Used?
Essentially, there are two types of pneumatic conveying systems. In dilute phase systems, the solids are suspended in the carrier gas and transported to their destination. In dense phase systems, the solids-to-gas ratio is much higher. The gas in these systems acts more like a piston to push the product to its final destination. Dilute phase systems are more typical than dense phase systems because they can employ positive pressure displacement or a vaccum system. Dense phase conveying is useful if the product degrades easily (works at lower velocities) or is particularly abrasive.

What Is The Most Common Carrier Gas Used In Pneumatic Conveying?
While many applications utilize air as a carrier gas, others are not suited for using air. For example, if the substance being conveyed reactions with moisture in the air or if there is a threat of dust explosions, nitrogen is likely choice.

What Are Some Common Problems Associated With Dense Phase Pneumatic Conveying?
Dense phase pneumatic conveying, typically experiences one common problem from system to system: plugging in the line due to a malfunctioning booster valve. Dense phase systems require these booster systems to introduce new, pressurized air. These boosters are nearly always accompanied by a check valve. If the check valve becomes stuck, the product is allowed to plug the line.

What Are Some Common Problems Associated With Dilute Phase Pneumatic Conveying?
Probably the most common problem encountered in dilute phase pneumatic conveying is the wearing of the rotary valve that serves as an air lock where the product is introduced into the system. If excess air is allowed to pass by the rotary valve, this can cause bridging of the material the flow can be slowed or stopped.

What Is Some Common Piping Materials Used To Transport Slurries?
When selecting a piping material to transport slurries, corrosion and erosion considerations must be accounted for. Some of the most popular piping materials include:
o  Carbon Steel
o  Stainless Steel
o  High Density Polyethylene (HDPE)
o  Acrylonitrile butadiene stryene (ABS)
o  Unplasticized polyvinyl chloride (uPVC)
o  Fiberglass reinforced plastic (FRP)
o  Elastomer-lined carbon steel

How Can You Prevent Bridging In A Dilute Phase Pneumatic Conveying System?
Manufacturers of these systems recommend bin agitation or blowing air into the top of the feeding bin. These methods can prevent fine particle from bridging near the rotators valve. Two types of particles that are especially prone to bridging include titanium dioxide and calcined- kaolin clay.

What Is The Best Way To Handle Bend Or Turns In Slurry Piping Systems?
Even long radius elbows should be avoided in slurry pipes and lines. They are often the site of severe erosion or solid/liquid separation. Only gentle pipe bends or sweeps should be used to turn a slurry line. Industrial experience has shown that a bend-radius-to-pipe-diameter ratio of 3-5 is recommended.

How Can You Determine The Proper Pipe Thickness For A Slurry Line?
Design of slurry piping systems should follow ANSI/ASME B31.1 and B31.11 Codes. A simple equation for this calculation is as follows: t = (PD) / (2S) + C where: t = pipe wall thickness, in. P = maximum design pressure of the pipe, psig S = maximum allowable design stress, psig C = corrosion or erosion allowance, in.

What Is The Practical Particle Size Limit For Pneumatic Conveying?
As a rule, pneumatic conveying will work for particles up to 2 inches in diameter with a typical density. By "typical density”, we mean that a 2 inch particle of a polymer resin can be moved via pneumatic conveying, but a 2 inch lead ball would not.

What Can Cause Bulk Solids To Stop Flowing From A Bin?
Causes of such problems can fall into one of two categories: Material strength or Bin Geometry: Factors that can affect material strength include. Moisture is especially with particles, which fuse together with moisture.

What Is The Most Common Cause Of Solid Size Segregation In Bulk Solid Systems?
Many engineers usually point directly to the pneumatic conveying system as a source of such a problem. The truth is that in most cases, segregation occurs because of the differences in sizes of the articles. As a rule-of-thumb, if the size ratio extends outside of around 1:1.3, then there will most likely be segregation. This being said, one should inspect the equipment responsible for determining the particle size rather than the pneumatic conveying system if this problem is occurring. Reference: Richard Farnish, the Wolfson Centre for Bulk Solids Handling Technology

How Can One Determine The Particle Size Distribution For A Given Bulk Solid?
While there are high-tech methods of performing such an analysis (laser-diffraction and video imaging system are available), the simplest way is to use a sieve stack. For example, to analyze a particular solid, one would stack several different mesh sizes into a cylinder with the largest mesh opening on the top and progress down through the cylinder to finer mesh. The cylinder would contain a pan on the bottom. Before beginning, weight the test sample, each piece of mesh, and the pan. Then, the sample is loaded into the top of the test cylinder and the cylinder is exposed to a combination of movements (shaken) to allow the solids to pass through the appropriate mesh sizes.

What Is A "saltation Velocity" And How Is It Used In Designing Pneumatic Conveying Systems?
The saltation velocity is defined as the actual gas velocity (in a horizontal pipe run) at which the particles of a homogeneous solid flow will start to fall out of the gas stream.
In designing, the saltation velocity is used as a basis for choosing the design gas velocity in a pneumatic conveying system. Usually, the saltation gas velocity is multiplied by a factor, which is dependent on the nature of the solids, to arrive at a design gas velocity.
For example, the saltation velocity factor for fine particles may be about 2.5 while the factor could be as high as five for course particles such as soybeans could.

What Are Some Characteristics Of Bulk Solids That Can Affect Their Ability To Flow Properly?
Four (4) main factors to consider include moisture content, temperature, particle size (and shape), and time at rest.
0. An increase in moisture content will generally make solids more "sticky". Some solids will absorb moisture from the air, which is why nitrogen is often used as a carrier gas (among other reasons).
1. For some solids, their ability to flow can be adversely impacted by temperature or even the length of time that the particles are exposed to a specific temperature. For example, soybean meal flows nicely at 90 °F but start to form large bridges at 100 °F.
2. Generally, the finer a bulk solid becomes, the more cohesive the particles. Round particles are generally easier to handle than "stringy" or oddly shaped particles. As particles rest in a bin, they can compact together from their own weight. This can create strong bonds between the particles.
3. Often times, re-initiating flow can break these bonds and the solids will flow as normal, but this can depend on the load at given locations in the bin.

What Is A Good Method Of Steam Tracing Large Vessels?
One common approach to heat tracing projects is a "platecoil" concept. If you are unfamiliar with this type of equipment, you should visit one of the links below. Depending on your tank(s) or application, the platecoil can easily steam trace (or heat-up) your process. The method of application is simple and routinely done by sub-contractors. New heat-tracing cements have made this method even more efficient and less costly than what we had in the past. The platecoils can be pre-formed to fit your tank's cylindrical shell or elliptical heads. Flat surfaces are very easy.
Platecoils are a quick, low-cost, and safe installation. Most platecoils are found in stock, off-the-shelf in stainless construction. I have used them to winterize tanks as well as to reduce viscosities in heavy polyols and other high molecular weight compounds while processing or during storage. One of the best features of this type of tracing is that it is not invasive -- depending on the application, you may be able to install the platecoils while the tank is operating. Still another interesting feature is that you can use them as an assembly inside of tanks --- as internal heaters. You can use steam, Dowtherm, hot oil or process streams inside the coils. You can easily insulate over them to conserve heat or to protect personnel. Another resource would be a publication by Spirax Sarco (link below). This book contains a lot of information on steam tracing, best practices, traps, regulating valves.

Is It Advisable To Cool A Fin Fan By Spraying Demineralized Water On It?
Fin fan has carbon steel tubes with aluminum fins RESPONSE In a similar service, the fin fan suffered external corrosion when spraying it with demin water. The salt and oxygen in the air corrodes the air-cooler.
The gas is piped normally from an outside cylinder storage facility to a process control panel at approximately 60 psig. The panel-output chlorine pressure is 15 psig and a flow rate of approximately 0.03 scfm. Occasionally the flow control devices in the process panel are contaminated by what appears to be liquid chlorine. It seems that temperature variations in the iron transport pipe may have some influence on the liquid formation.
The condensation temperature of gaseous chlorine at 65 psig is 54 deg F. Thus, if your transport line is long, it is quite likely that ambient temperatures lower than 54 deg F could result in cooling the line enough to cause condensation of the chlorine gas. If you lower the transport pressure to 25 psig, the condensation temperature would be 24 deg F ..., which should significantly lower the likelihood of cold ambient temperature causing the gas to condense.

How Can You Control The Ph Level In Our Cooling Water With Respect To Ammonia Contamination?
A cooling tower in a urea manufacturing facility is experiencing very high ammonia levels (200 to 300 ppm) in the cooling water. The ammonia level fluctuates with wind direction.
RESPONSE if your cooling water has 200-300 ppm of ammonia, you have a problem, which must be solved. You may have a water-cooled process heat exchanger, which has a tube leak that is leaking ammonia into your cooling water. Or the ambient air in your urea plant has a significant ammonia content (from various fugitive leak sources such as piping flanges, control valve packing glands, pump and compressor seals, etc.) and when the wind blows that ambient air into the cooling tower, the ammonia is absorbed in the cooling water.
In either event, you have an unhealthy situation, which must be corrected. Contacting a company that is specialized in these types of water treatment problems may be a wise decision (Ex/ Nalco).

How Can You Keep Our Seawater Used For Heat Rejection Clean Before Entering Our Heat Exchangers?
Seawater is used as a cooling agent in condensers and coolers. Intermittent injection of chlorine gas is used to eliminate marine growth. The system is a once through type. The band screens before the suction of the pumps are supposed to eliminate scales and other suspended materials. The band screens are not properly functioning. Cooling water flow is about 2.6 million gallons per hour.
The prescreening and mobile screens are not a sufficient protection for the recirculating water. This is a very common problem. In clean salt water the biological grow in the cooling water pipes is the main problem (mussels, barnacle, algae, etc.). After the life cycle is finished they die and blocking the condenser tubes. To solve this debris problems use self-cleaning Debris Filters (DF) directly installed in front of the waterbox of the heat exchangers.

We Have Some Pieces Of Metals That Have Been "powder Coated", How Does That Work?
Powder coatings are similar to paint, but they are usually much more durable. Rather than adding a solvent to the pigments and resins in paint, as is typically the case, powder coatings are applied to the surface in a fine granular form. They are typically sprayed on so that they stick to the surface. Once the surface has been sufficiently spray coated, the piece is baked at high temperatures, and the pigment and resins pieces melt and form a durable, color layer.

What Industries Require Filtered Compressed Air?
Almost every chemical process, power plant food processing etc. plant has some type of air-operated device... from control valves to air operated pumps... and all have an air compressor delivering filtered air.

What Are Some Good Tank Mixing Rules Of Thumb?
For fluid with viscosities under 10,000 Cp, baffles are highly recommended. There should be four baffles, 90 degrees apart. The baffles should be 1/12th the tank diameter in width and should be spaced off the wall by 1/5th the baffle width. The off- wall spacing helps to eliminate dead zones. If baffles are used, the mixer should be mounted in the vertical position in the center of the tank. If baffles are not used, the mixer should be mounted on an angle, ~15 degrees to the right and positioned off center. This breaks up the symmetry of the tank and simulates baffles although not nearly as good as baffles.
The purpose of baffles is to prevent solid body rotation all points in the tank are moving at the same angular velocity and no top to bottom turnover. The formation of a large central vortex is a characteristic of solid body rotation. However, small vortices that travel around the fluid surface, collapse, and reform are more a function of the level of agitation.

What Is A Good Source Of Equations For Calculating Discharge Flowrates From Accidental Releases?
If you are interested in the calculation of discharge flow rates from accidental releases, read the online technical article "Source Terms for Accidental Discharge Flow" at the website below. It provides the equations used for a variety of common types of accidental gas or liquid releases and explains how to use them.

What Is The Definition Of "good" Cooling Tower Water?
Generally speaking, cooling tower water should have a pH between 6 and 8, a chloride content no more than 750 ppm, a sulfate content (SO4) below 1200 ppm, and a sodium bicarbonate (NaHCO3) content below 200 ppm. Additionally, cooling tower water should not be heated past 120 °F to avoid plating out of treatment chemicals in process coolers.
In addition, if free chlorine is used for biological growth control, it should be added intermittently with a free residual not to exceed 1 ppm and this should be maintained for short periods.

When Specifying A Cooling Tower, Should I Look Up Historic Wet Bulb Temperatures For My Area Or Should I Take Measurements?
If this is a new installation, look up historical wet bulb temperatures for area and be sure to report them to the cooling tower manufacturer as "ambient wet bulb temperatures". The manufacturer will adjust this temperature accordingly to estimate an "entering wet bulb temperature".
If you have an existing tower that is to be replaced, take several wet bulb temperature measurements near the air inlet during the hottest months. Report this as the "entering wet bulb temperature" to the tower manufacturer.
The difference between the ambient and the entering wet bulb temperatures is to account for wet recirculation from the tower exit back to the tower entrance. The entering wet bulb temperature always higher than the ambient wet bulb temperature.

Is There A Rule Of Thumb To Estimate The Footprint Of A Cooling Tower During Design Phase?
Over the years, this one has seemed to stand the test of time:
Every million Btu/h of tower capacity will require approximately 1000 ft2 of cooling tower basin area.

What Could Be A Possible Cause For Sudden Foaming In A Cooling Tower?
Assuming that no other changes have been made, especially to the water treatment chemicals, the most common outcome to this mystery is a leaking heat exchanger.
Begin a systematic check of all of the heat exchangers that use the cooling tower water and inspect them thoroughly for leaks. Even small amounts of some chemicals can cause big foaming problems in the tower. In addition, not all of these components will set off a conductivity alarm.

What Factors Should Be Compared When Evaluating Cooling Tower Bids?
Examining the following factors should allow for a reasonable evaluation of cooling towers:
0. Purchased cost
1. Installed cost
2. Fan energy consumption
3. Pump energy consumption
4. Water use
5. Water treatment costs
6. Expected maintenance costs
7. Worker safety requirements
8. Environmental safety
9. Expected service life

For A Heat Exchanger, Will The Overall Heat Transfer Coefficient Increase Along With An Increase In Lmtd (log Mean Temperature Difference) Around The Unit?
The overall heat transfer coefficient is generally weakly dependent on temperature. As the temperatures of the fluids change, the degree to which the overall heat transfer coefficient will be affected depends on the sensitivity of the fluid's viscosity to temperature. If both fluids are water, for example, the overall heat transfer coefficient will not vary much with temperature because water's viscosity does not change dramatically with temperature. If, however, one of the fluids is oil which may have a viscosity of 1000 cP at 50 °F and 5 cP at 400 °F, then indeed the overall heat transfer coefficient would be much better at higher temperatures since the oil side would be limiting.
Realize that the overall heat transfer coefficient is dictated by the local heat transfer coefficients and the wall resistances of the heat exchanger. The local heat transfer coefficients are dictated by the fluid's physical properties and the velocity of the fluid through the exchanger. So, for a given heat exchanger, fluid flow rates, and characteristics of each fluid....the area of the exchanger and the overall heat transfer coefficients are fixed (theoretically anyway....as the overall heat transfer coefficient does vary slightly along the length of the exchanger with temperature as I've noted and the U-value will decrease over time with fouling).

What Is Condensate Lift?
This is a term that is usually used to indicate how much pressure is required to 'lift' condensate from a steam trap or other device to it's destination at a condensate return line or condensate vessel. The first image below shows a situation where a properly sized control valve is used on a steam heater. During nominal operation, the utility steam undergoes a nominal 10-25 psi pressure loss through the valve. For typical utility steam (150 psi or higher), this can leave a pressure at the steam trap exit that is often adequate to lift the condensate to its destination. For example, if the steam losses 20 psi through the valve and another 15 psi through the heater and piping, that can leave up to 265 ft of head to push the condensate to the header. In this case, there is little need for a condensate pump.
On the other hand, if the control is too large, it will only be a few percent open during normal operation and the steam can undergo a pressure loss of 50-75 psi or even higher! In addition to supplying terrible control for the heater, it also reduces the available head for condensate lift. In this case, or if the steam supply pressure is relatively low, it may be necessary follow the steam trap with a separation vessel and a condensate pump to push the condensate to the return line.

What Type Of Heat Exchangers Are Most Commonly Used For A Large-scale Plant-cooling Loop Using Seawater As The Utility?
Commonly known as a "secondary cooling loop" or SECOOL, a closed loop water system is circulated through a processing plant near a sea. Process heat is transferred into the closed loop water and then this water is circulated through heat exchangers to transfer (reject) the heat to seawater. This is a hallmark plate and frame heat exchanger application.
The higher heat transfer coefficients that are available in plate and frames exchangers (PHEs) will minimize the installed cost because the material of construction of choice it Grade 1 Titanium (higher U-value means lower area). To combat pluggage the narrow passages in the exchangers, the seawater is typically run through large automatic backflush strainers designed especially for seawater. Periodically, these strainers will reverse flow and "blowdown" debris to clear the strainer. This method has been used for many years with great success.

Can Condensate Control In A Reboiler Cause Water Hammer Problems?
 It is very common to control reboilers on distillation columns via this method. This is not to say that this control method is the best for any heat exchanger using steam for heating. For example, if there is an appreciable degree of subcooling of the condensate, the incoming steam can experience "collapse" (or thermal water hammer) when it is exposed to the cool condensate. In reboilers, the process fluid is simply being vaporized so little or no subcooling of the condensate takes place.
This makes for a good opportunity for condensate level control in a vertically oriented shell and tube reboiler. The level controller is typically placed on a vessel that is installed in conjunction with the shell side of the reboiler. This will allow for full condensate drainage (if necessary) and there is no need to weld on the shell of the exchanger

Why Is A Vacuum Breaker Used On Shell And Tube Heat Exchangers That Are Utilizing Steam As The Heating Utility?
Vacuum breakers are often installed on the shell side (steam side) of shell and tube exchangers to allow air to enter the shell in case of vacuum conditions developing inside the shell. For an exchanger such as this, the shell side should already be rated for full vacuum so the vacuum breaker is not a pressure (vacuum) relief device. Development of vacuum in the shell could allow condensate to build in the unit and water hammer may result.

What Is A Barometric Condenser?
Single-stage or multi-stage steam-jet-ejectors are often used to create a vacuum in a process vessel. The exhaust from such ejector systems will contain steam (and perhaps other condensable vapors) as well as non-condensable vapors. Such exhaust streams can be routed into a "barometric condenser" which is a vertical vessel where the exhaust streams are cooled and condensed by direct contact with downward flowing cold water injected into the top of the vessel.
The vessel is installed so that its bottom is at least 34 feet (10.4 meters) above the ground, and the effluent cooling water and condensed vapors flow through a 34-foot length of vertical pipe called a "barometric leg" into small tank called a "hotwell". The "barometric leg" allows the effluent coolant and condensed vapors to exit no matter what the vacuum is in the process vessel. Such a system is called a "barometric condenser". The non-condensable vapors are withdrawn from the top of the condenser by using a vacuum pump or perhaps a small steam ejector. The effluent coolant and condensed vapors are removed from the hotwell with a pump.

What Is The Best Way To Control An Oversized, Horizontally Oriented Shell And Tube Steam Heater?
A used shell and tube heat exchanger is to be used in steam heating duty. The heat exchanger is larger than necessary and the control scheme to be employed is being investigated. The steam to be used will be 65 psia-saturated steams. The process fluid is a liquid brine fluid.
 The actual pressure in the heater, while the steam is condensing is dependent on the condensing rate and the overall dirty U. Tubes can be plugged to reduce the amount of heat transfer area, as long as the process side (tube) velocity does not get too high. Calculate the needed area and then the required steam flow rate. An orifice can be sized to control the steam flow rate; however, at reduced loads the condenser may experience partial vacuum conditions so be sure that the shell is rated for full vacuum. When this partial vacuum condition does occur, choked flow will be experienced through the steam control valve. The Cv trim value would need to be sized such that the choked flow does not exceed what is needed. This is tricky and requires several trim size change outs.

Is It Ever Advantageous To Use Shells In Series Even Though It May Not Be Necessary?
Usually you design for the least number of shells for an item. However, there are times when it is more economical to add a shell in series to the minimum configuration. This will be when there is a relatively low flow in the shell side and the shell stream has the lowest heat transfer coefficient. This happens when the baffle spacing is close to the minimum. The minimum for TEMA is (Shell I.D. /5). Then adding a shell in series gives a higher velocity and heat transfer because of the smaller flow area in the smaller exchangers that are required.

What Is Some Good Advice For Specifying Allowable Pressure Drops In Shell And Tube Exchangers For Heavy Hydrocarbons?
Frequently process engineers specify 5 or 10 PSI for allowable pressure drop inside heat exchanger tubing. For heavy liquids that have fouling characteristics, this is usually not enough. There are cases where the fouling excludes using tabulators and using more than the customary tube pressure drop is cost effective. This is especially true if there is a relatively higher heat transfer coefficient on the outside of the tubing. The following example illustrates how Allowable pressure drop can have a big effect on the surface calculation. A propane chiller was cooling a gas treating liquid that had an average viscosity Of 7.5 cP.
The effect on the calculated surface was as follows: Allowable tube pressure drop Exchanger surface 5 PSI 4012 Sq. Ft. 25 PSI 2104 Sq. Ft. 50 PSI 1419 Sq. Ft. You can see that using 25-PSI pressure drop reduced the surface by nearly one-half. This would result in a price reduction for the heat exchanger of approximately 40%. This savings offset the cost of the pumping power

What Is A Good Approximation For The Heat Transfer Coefficient Of Hydrocarbons Inside 3/4" Tubes?
Use the following equation to estimate the heat transfer coefficient when liquid is flowing inside 3/4 inch tubing: Hio = 150./sqrt(avg. viscosity) Where: Hio (BTU/ft2-hr-0F Viscosity (cP) this is limited to a maximum viscosity of 3 cP.

What Is A Good Relation To Use For Calculating Tube Bundle Diameters?
The following are equations for one tube pass bundle diameter when the tube count is known or desired: 30 Deg. DS = 1.052 x pitch x SQRT(count) + tube O.D. 90 Deg. DS = 1.13 x pitch x SQRT(count) + tube O.D. Where: Count = Number of tubes DS = Bundle diameter in inches Pitch = Tube spacing in inches

What Effect Does Choking A Vertical Thermosiphon Have On The Heat Transfer Rate?
Choking down on the channel outlet nozzle and piping reduces the circulation rate through a heat exchanger. Since the tubeside heat-transfer rate depends on velocity, the heat transfer is lower at reduced recirculation rates. A rule of thumb says that the inside flow area of the channel outlet nozzle and piping should be the same as the flow area inside the tubing. Shell Oil in an experimental study showed that a ratio of 0.7 in nozzle flow area/tube flow area reduced the heat flux by 10%. A ratio of 0.4 cut the heat flux almost in half.

How Can One Quickly Estimate The Additional Pressure Drop To Be Introduced With More Tube Passes?
When the calculated pressure drop inside the tubes is underutilized, the estimated pressure drop with increased number of tube passes is new tube DP = DP x (NPASS/OPASS)3 Where NPASS = New number of tube passes. OPASS = Old number of tube passes this would be a good estimate if advantage is not taken of the increase in heat transfer. Since the increased number of tube passes gives a higher velocity and increases the calculated heat transfer coefficient, the number of tubes to be used will decrease. Fewer tubes increase the new pressure drop. For a better estimate of the new pressure drop, add 25% if the heat transfer is all sensible heat. Source: Gulley Computer Associates

Can Large Temperature Differences In Vaporizers Cause Operational Problems?
Large temperature differences in heat exchangers where liquid is vaporized are a warning flag. When the temperature differences reach a certain value, the cooler liquid can no longer reach the heating surface because of a vapor film. This is called film boiling. In this condition, the heat transfer deteriorates because of the lower thermal conductivity of the vapor. If a design analysis shows that the temperature difference is close to causing film boiling, the vaporizer should be started with the boiling side full of relatively cooler liquid.
This way, you do not start flashing the liquid. The liquid is slowly heated up to a more stable condition. If the vaporizer is steam heated, the steam pressure should be reduced which will reduce the temperature difference. With steam heating, take a close look at the design if the MTD is over 90 0F this is close to the critical temperature difference where film boiling will start.

When Should One Be Concerned With The Tube Wall Temperature On The Cooling Waterside Of A Shell And Tube Exchanger?
When designing heat exchangers where hot process streams are cooled with cooling water, check the tube wall temperature. Hewitt says that where calcium carbonate may deposit heat, transfer surface temperatures above 140 0F should be avoided. Corrosion effects should also be considered at hot tube wall temperatures. As a rough rule of thumb, make this check if the inlet process temperature is above 200 0F for light hydrocarbon liquids and 300-400 0F for heavy hydrocarbons. Consider using Aircoolers to bring the process fluid temperature down before it enters the water-cooled exchanger.

When An Expansion Is Joint Needed On The Shell Side Of A Shell And Tube Heat Exchanger?
A fixed tube sheet exchanger does not have provision for expansion of the tubing when there is a difference in metal temperature between the shell and tubing. When this temperature difference reaches a certain point, an expansion joint in the shell is required to relieve the stress. It takes a much lower metal temperature difference when the tube metal temperature is hotter than the shell metal temperature to require an expansion joint. Typically, an all steel exchanger can take a maximum of approximately 40-0F metal temperature difference when the tube side is the hottest. When the shell side is the hottest, the maximum is typically 150 0F. Usually if an expansion joint is required, it is because the maximum allowable tube Compressive stress has been exceeded. According to the TEMA procedure for evaluating this stress, the compressive stress is a strong function of the unsupported tube span.

What Kind Of Concerns Is Associated With Temperature Pinch Points In Condensers?
Be extra careful when condensers are designed with a small pinch point. A pinch point is the smallest temperature difference on a temperature vs heat content plot that shows both streams. If the actual pressure is less than the process design operating pressure, there can be a significant loss of heat transfer. This is especially true of fluids that have a relative flat vapor pressure plot like ammonia or propane. For example: If an ammonia condenser is designed for 247 PSIA operating pressure and the actual pressure is 5 PSI less and the pinch point is 8 0F, there can be a 16% drop in heat transfer.

What Factors Go Into Designing The Vapor Space Of Kettle Type Reboiler?
The size of the kettle is determined by several factors. One factor is to provide enough space to slow the vapor velocity down enough for nearly all the liquid droplets to fall back down by gravity to the boiling surface. The amount of entrainment separation to design for depends on the nature of the vapor destination. A distillation tower with a large disengaging space, low tower efficiency, and high reflux rate does not require as much kettle vapor space as normal. Normally the vapor outlet is centered over the bundle. Then the vapor comes from two different directions as it approaches the outlet nozzle. Only in rare cases are these two vapor streams equal in quantity. A simplification that has been extensively used is to assume the highest vapor flow is 60% of the total. In one case, where this would cause an undersized vapor space is when there is a much larger temperature difference at one end of the kettle then the other. The minimum height of the vapor space is typically 8 inches.

Is There A Quick Rule-of-thumb To Estimate A Gas Side Heat-transfer Rate Inside The Tubes
Of A Shell And Tube Heat Exchanger?
If you need to estimate a gas heat transfer rate or see if a program is getting a reasonable gas rate, use the following: h = 75 X Sq. Root(Op. pressure/100) The operating pressure is expressed as absolute. This is for inside the tubes. The rate will be lower for the shell side or if there is more than one exchanger.

Are There Any Alternatives To Scraping A Shell And Tube If A Capacity Increase Will Make The Pressure Drop Across The Exchanger Too Large?
When an increase in capacity will cause excessive pressure drop, you may not have to junk the heat exchangers. A relatively inexpensive alteration is to reduce the number of tube passes. Other possibilities are arranging the exchangers in parallel or using lowfins or other special tubing.

What Is A Good Method Of Minimizing Shell Side Pressure Drop In A Shell And Tube Exchanger?
When shell pressure drop is critical and impingement protection is required, use rods or tube protectors in top rows instead of a plate. These create less pressure drop and better distribution than an impingement plate. An impengement plate causes an abrupt 90-degree turn of the shell stream, which causes extra pressure drop.

What Are Some Good Strategies For Curing Tube Vibration In Shell And Tube Exchangers?
Most flow-induced vibration occurs with the tubes that pass through the baffle window of the inlet zone. The unsupported lengths in the end zones are normally longer than, those in the rest of the bundle. For 3/4 inch tubes, the unsupported length can be 4 to 5 feet. The cure for removable bundles, where the vibration is not severe, is to stiffen the bundle. This can be done by inserting metal slats or rods between the tubes. Normally this only needs to be done with the first few tube rows. Another solution is to add a shell nozzle opposite the inlet to cut the inlet fluid velocity in half. For non-removable bundles, this is the best solution. Adding a distributor belt on the shell would be a very good solution if it were not so expensive.

What Are Some Of The Consequences Of An Undersized Kettle Type Reboiler?
The effect will be a decrease in the boiling coefficient. A boiling coefficient depends on a nucleate boiling component and a two-phase component that depends on the recirculation rate. An undersized kettle will not have enough space at the sides of the bundle for good recirculation. Another effect is high entrainment or even a two-phase mixture going back to the tower.

Are Some Heat Transfer Services More Prone To Tube Vibration That Others For A Shell And Tube Exchanger?
Bundle vibration can cause leaks due to tubes being cut at the baffle holes or tubes being loosened at the tubesheet joint. There are services that are more likely to cause bundle vibration than others are. The most likely service to cause vibration is a single-phase gas operating at a pressure of 100 to 300 PSI. This is especially true if the baffle spacing is greater than 18 inches and single segmental.

Is There A Difference In Mtd (mean Temperature Difference) Between "e" And "j" (divided Flow) Type Shell And Tube Heat Exchangers?
Divided flow (shell type J) does not have the same correction as the usual flow pattern (shell type E). Thermal design program make this correction factor mistake. True, there is very little difference at correction factors above 0.90. However, there is a difference at lower values. For example, Equal outlet temperatures Shell type "E" correction Fn = 0.805 Shell type "J" correction Fn = 0.775 Cold outlet 5F higher than hot outlet Shell type "E" correction Fn = 0.765 Shell type "J" correction Fn = 0.65 Contact us if you do not have MTD correction factor charts for divided flow. TEMA has one chart for a single shell but it gives high values for the above examples and it is hard to read in this range.

How Is Plate Heat Exchangers Used In An Ammonia Refrigeration System?
Plate heat exchangers are widely used in ammonia refrigeration systems, and they can be much smaller than the equivalent tubular exchanger can. They work best flooded. A flooded exchanger system needs a way to separate the liquid from the vapor. A typical system has a vessel, which acts as knockout drum, accumulator, and header tank in one, along with the heat exchanger. Liquid ammonia flows from the vessel to the exchanger, and liquid/vapor is returned to the middle of the drum. Vapor is removed from the top of the drum. The liquid/vapor mixture from the exchanger has a lower density than the liquid entering the exchanger, so gravity provides the driving force to circulate the refrigerant.

What Is An Effective Means Of Removing Silicon From Aluminum?
Silicon is well known for its chemical inertness, (i.e. it tends not to react with many other chemicals). Depending on what type of silicon you are dealing with, this may or may not be easy to solve. If the silicon is from a lubricant, it is probably the graphitic form, which is soluble in a strong combination of nitric, and hydrofluoric acids, neither of which I would recommend for you to use...nor hydrofluoric acid is not easy to come by. If it is silicon from an acidic form (probably any other form other than a lubricant), you should try ammonia. In either case, leave your acetone at home...it will NEVER work! UPDATE: An ammonia solution worked very well in this case.

What Does The Catalystic Converter On An Automobile Really Do?
A catalytic converter is a device that uses a catalyst to convert three harmful compounds in automobile exhaust gas into harmless compounds. The three harmful compounds are:
o Hydrocarbons (in the form of unburned gasoline)
o Carbon monoxide (formed by the combustion of gasoline)
o Nitrogen oxides (created when the heat in the engine forces nitrogen in the air to combine with oxygen).
Carbon monoxide is a poison for any air-breathing animal. Nitrogen oxides lead to smog and acid rain, and hydrocarbons produce smog. In a catalytic converter, the catalyst (in the form of platinum and palladium) is coated onto a ceramic honeycomb or ceramic beads that are housed in a muffler-like package attached to the exhaust pipe. The catalyst helps to convert carbon monoxide into carbon dioxide. It converts the hydrocarbons into carbon dioxide and water. It also converts the nitrogen oxides back into nitrogen and oxygen.

Who Built The First Production Scale Pla (polylactic Acid) Facility?
The first production scale PLA (polylactic acid) facility was built by Cargill Dow in The Blair, Nebraska, and USA. The facility is designed to consume 40,000 bushels of corn per day and produce 300 million lb/year of PLA.

What Is The Largest Application For Surfactants?
About 60% of total surfactant market is composed of the detergent and cleaning products marketplace. These types of compounds are sold in large volumes at low prices.

How Can You Separate Hydrogen Peroxide Into Hydrogen And Oxygen?
This is easily done. Just expose hydrogen peroxide to air. The oxygen in the air will oxidize the hydrogen peroxide into its component gases. It happens far too slowly for industrial or most other purposes (an enzyme catalyst can be used to speed up the process). However, neither hydrogen nor oxygen is produced in this manner in industry. The enzyme catalyst is called "catalase".

What Is A Solvent?
According to the US Solvent Council, "A solvent is a liquid which has the ability to dissolve, suspend, or extract other materials without chemical change to the material or solvent. Solvents make it possible to process, apply, clean, or separate materials.

What Is The Easiest Way To Extract Hydrogen From Water And The Safest Way To Store It?
Electrolysis (which means splitting using electricity) of water is the method for producing hydrogen from water. The safest way to commercially store it would be to use a palladium "sponge", because palladium adsorbs several hundred times it's own volume in hydrogen. One would need to produce a compound with a very high surface area, which has a thin coating of palladium. This type of material is commonly used as a catalyst in chemical processes.

What Are The Three Classes Of Organic Solvents?
Typically, organic solvents can be split up in the following classes: Oxygenated, Hydrocarbon, and Halogenated. Oxygenated solvents include alcohols, glycol ethers, ketones, esters, and glycol ether esters. Hydrocarbon solvents include aliphatics and aromatics. Halogenated solvents include those that are chlorinated primarily.

What Is Happening When Paint Dries?
During the manufacture of paint, solvents are added to make the paint thinner so that it can be applied to various surfaces. Once the paint is applied, the solvents evaporate and the resins and pigments that make up the paint for a thin, solid layer on the surface.

Latest Chemical Engineering Interview Questions for freshers and Experienced pdf

Latest Google Dart Interview Questions And Answers


Real Time Google Dart Interview Questions with Answers PDF


What is Dart language?

Dart is an application programming language that’s easy to learn, easy to scale, and deployable everywhere.
Google uses Dart to make very large apps.It is open-source software under a permissive free software license (modified BSD license).
Dart is an object-oriented, class defined, single inheritance language using C# style syntax that transcompiles optionally into JavaScript. It supports interfaces, mixins, abstract classes, reified generics, and optional typing.

10 [Latest] CherryPy Interview Questions And Answers PDF

Real Time CherryPy Interview Questions with Answers PDF


1. What is CherryPy?
CherryPy is an object-oriented HTTP web application framework based on Python programming language.CherryPy is designed for rapid development of web applications and allows developers to build web applications in much the same way they would build any other object-oriented Python program. This results in smaller source code developed in less time.It is an open-source project, you are free to fork CherryPy on GitHub

2. Why Cherrypy?

CherryPy is now more than ten years old and it is has proven to be very fast and stable. It is being used in production by many sites, from the simplest to the most demanding. Also,
•    It can run anywhere Python runs
•    It does not require a C compiler
•    It can run on various implementations of the Python language: CPython, IronPython, Jython and PyPy
Interview Questions And Answers On CherryPy
3. List some features of Cherrypy Framework?
Below is list of some key features of Cherrypy Framework
•    A reliable, HTTP/1.1-compliant, WSGI thread-pooled web server.
•    Easy to run multiple HTTP servers (e.g. on multiple ports) at once.
•    A powerful configuration system for developers and deployers.
•    A flexible plugin system.
•    Built-in tools for caching, encoding, sessions, authentication, static content, and much more.
•    In CherryPy everything is swappable and customizable.
•    Built-in profiling, coverage, and testing support.
•    Runs on Python 2.7+, 3.1+, PyPy, Jython and Android.

4. List Requirements to install CherryPy?
CherryPy does not have any mandatory requirements. CherryPy comes with pluggable components or modules.To use a certain feature you need to install certain packages
The basic requirements for installation of CherryPy framework include
•    Python with version 2.7 or above
•    CherryPy 3.0
CherryPy can be easily installed via common Python package managers such as setup tools or pip.
$ easy_install cherrypy
pip install cherrypy
You may also get the latest CherryPy version by grabbing the source code from Github:
$ git clone
$ cd cherrypy
$ python setup.py install

5. How to disable logging in CherryPy?
Disabling File Logging in CherryPy :
To disable file logging in CherryPy, simply set an empty string to the log.access_file or log.error_file keys in your global configuration.
cherrypy.config.update({'log.access_file': '',
                        'log.error_file': ''})
Disabling Console Logging in CherryPy :
To disable Console logging in CherryPy, simply set log.screen to False in your global configuration.
cherrypy.config.update({'log.screen': False})

Latest CherryPy Interview Questions for freshers and Experienced pdf

10 [Latest] A+ programming Interview Questions with Answers PDF


Real Time A+ programming Interview Questions And Answers PDF


1. What is A+ programming language?
A+ is a powerful and efficient programming language. It is freely available under the GNU General Public License. It embodies a rich set of functions and operators, a modern graphical user interface with many widgets and automatic synchronization of widgets and variables, asynchronous execution of functions associated with variables and events, dynamic loading of user compiled subroutines, and many other features. Execution is  by a rather efficient interpreter. A+ was created at Morgan Stanley. Primarily used in a withstood the demands of real world developers over many years. Written in an interpreted language, A+ applications tend to be portable.

2. Who Wrote A+ ?
A+ is written by Arthur Whitney at Morgan Stanley in 1988 .

3.What is APL programming language?
APL (named after the book A Programming Language) is a programming language developed in the 1960s by Kenneth E. Iverson. Its central datatype is the multidimensional array. It uses a large range of special graphic symbols to represent most functions and operators, leading to very concise code. It has been an important influence on the development of concept modeling, spreadsheets, functional programming, and computer math packages.It has also inspired several other programming languages.It is still used today for certain applications.
Source :Wikipedia.

4. What were the changes that the A+ language brought about in APL?
The A+ language implements the following changes to the APL language:
•    An A+ function may have up to nine formal parameters.
•    A+ code statements are separated by semicolons, so a single statement may be divided into two or more physical lines.
•    The explicit result of a function or operator is the result of the last statement executed.
•    A+ implements an object called a dependency, which is a global variable (the dependent variable) and an associated definition that is like a function with no arguments. Values can be explicitly set and referenced in exactly the same ways as for a global variable, but they can also be set through the associated definition.

5. List some features of A+ programming language
•    An A+ function may have up to nine formal parameters.
•    A+ code statements are separated by semicolons.
•    The explicit result of an operator or function is the result of the last statement executed.
•    A+ implements an object called a dependency.

6. Explain Nonscalar Primitive Functions
The A+ nonscalar primitive functions can be grouped, among many other ways, in these eight categories:
•    Informational functions: Shape, Count, Depth, Type;
•    Structural functions: Reshape, Interval, Restructure, Reverse, Rotate, Transpose, Transpose Axes, Ravel, Item Ravel, Enclose, Disclose, Rake, Raze, Partition, Take, Drop, Replicate, Expand, Catenate, Laminate;
•    Selection functions: Pick, Choose, Bracket Indexing, Right, Left, Null, Separate Symbols;
•    Computational functions: Matrix Inverse, Solve, Deal, Pack, Unpack, Encode, Decode;
•    Comparison functions: Match, Member, Find, Bins, Grade up, Grade down, Partition Count;
•    Format and representation functions: Format, Default Format, Cast;
•    Specificational functions: Assignment, Append, Bracket Indexing Selective Assignment, Replace All, Selective Assignment;  Beam;
•    Evaluative, display, and control functions: Execute, Execute in Context, Protected Execute, Value, Value in Context, Result, Signal, Print, Stop;  Time.

7. What type of control statements are used in A+?
Unlike functions and operators, which take arguments and return results, control statements are primarily used for their side effects, although they always do have explicit results. Some control statements also have syntax that differs from that of functions taking arguments. The keywords are reserved: the words or names case, do, if, else, and while can appear only as parts of control statement

8. How numbers are represented in A+?
The machines on which A+ is run represent numbers in binary (base 2), for efficient storage and computation. A+ (via C) represents integers in 32 bits (binary digits) and floating-point numbers in 64. The largest integer representable in this way is (2*31)-1 and the smallest is ¢2*31 (-2147483648); the greatest magnitude representable as a floating-point number is approximately 1.7977e+308.
In display and print, of course, A+ represents numbers in decimal. People tend to think in decimal and their input is usually decimal. Numbers like .1 and .01 seem exactly representable intrinsically (as they are in decimal), but, in fact, these numbers cannot be exactly represented in binary, and decimal to binary and binary to decimal conversions are one source of imprecision.

9. What is the rank operator?
The concepts of leading axis and item are generalized by treating an array as a frame defined by the array’s leading m axes holding cells of rank n defined by the array’s trailing n axes, where m+n is the rank of the array. A function f is applied to all cells of rank n with the expression f@n. The rank operator (@) applies uniformly to all functions of one or two arguments: primitive, derived, or defined, except Assignment and (because of its syntax) Bracket Indexing (@ does apply to Choose, which is semantically equivalent).

10. List some Scalar Monadic Functions of A+ programming ?
+ – × ÷ | ⌈ ⌊ * ⍟ ○ ! ~ ? ∊

Latest A+ programming Interview Questions for freshers and Experienced pdf

10 [Latest] Sinatra framework Interview Questions And Answers PDF

Real Time Sinatra framework Interview Questions with Answers PDF

1. What is Sinatra?
Sinatra is web application framework for rapidly building applications in Ruby.Sinatra is a domain specific language or DSL which means it is designed from the ground up to build applications with minimal efforts.It is written in Ruby and an alternative to Ruby web application frameworks such as Ruby on Rails, Merb, Nitro, and Camping.

2. How to use sessions in Sinatra?
By default, Sessions are disabled in Sinatra.You need to enable them and then use the session hash from routes and views. Below code shows
how to enable, set or get a session in Sinatra.
//Enabling Session

enable :sessions

get '/foo' do
  // setting session value
  session[:message] = 'Hello World!'
  redirect to('/bar')
end

get '/bar' do
 // getting session value
  session[:message]   # => 'Hello World!'
end

3. How do you flash a session message in Sinatra ?
Rack:: Flash is used to flash a message in Sinatra.
Example Usage :
require 'sinatra/base'
require 'rack-flash'

class MyApp < Sinatra::Base
  enable :sessions
  use Rack::Flash

  post '/set-flash' do
    # Set a flash entry
    flash[: notice] = "Thanks for signing up!"
   
    # Get a flash entry
    flash[:notice] # => "Thanks for signing up!"
   
    # Set a flash entry for only the current request
    flash.now[: notice] = "Thanks for signing up!"
  end
end

4. How do I get the “route” for the current page?
The request object probably has what you’re looking for:
get '/hello-world' do
  request.path_info   # => '/hello-world'
  request.fullpath    # => '/hello-world?foo=bar'
  request.url         # => 'http://example.com/hello-world?foo=bar'
end

Latest Sinatra framework Interview Questions for freshers and Experienced pdf

10 [Latest] Google Adsense Interview Questions And Answers PDF

Real Time Google Adsense Interview Questions with Answers PDF

1) Explain what is Adwords?
Adwords is the system that Google has designed to assist in marketing product or services in Google search engine and its affiliated sites.  It will place a text ad that appears when people search for phrases associated to your offering.

2) Explain how Adwords work?
Adwords work on bidding system if the bidding price is higher your ad will appear on top of the Google page.  Adwords works on “pay per click” that means you only pay the amount you have bid if someone taps on your ad as a result of a web search.

3) Explain why to use Google Adwords?
Google Adwords behave differently to traffic that comes from Google Adwords or “Pay Per Click”. The traffic that comes through surfing often visits the website for information, whereas the traffic via pay per click knows what they are clicking on and what they want to buy.  So few visitors through Adwords might be more valuable than million visitors.
Common Google Adsense Interview Questions And Answers
4) Explain what is Ad rank?
Ad rank determines your ad position on Google page, and it is determined by your bid for that keyword and quality score.

5) Explain how does Ad rank impact Cost-Per-Click?
Ad rank plays a huge role in defining the actual cost-per-click that your opponents pay when someone clicks on their ads.  Your CPC can be calculated by following way
Your Price = The ad rank of the person below you/ your quality score + $0.01

6) What is the maximum number of AdSense units you can put on a page?
Google AdSense offers different types of ads, and most are categorized in the following formats:
•    AdSense content unit
: Max three ads unit allowed on a page
•    AdSense link unit
: Max three ads unit allowed on a page
•    AdSense for search
: Max two ads unit allowed on a page

Latest Google Adsense Interview Questions for freshers and Experienced pdf