The Help With Assignment Blog is intended to provide with tips and tricks to students so that they are able to do better at school and college. The Blog is associated with HelpWithAssignment.com (HwA), a leading provider of online tuitions in University subjects.

Thursday, June 30, 2011

Chemical Engineering Thermodynamics from HelpWithAssignment.com

Chemical Engineering Thermodynamics from HelpWithAssignment.com

Chemical Engineering Thermodynamics is the study of relationship between heat and work with chemical reactions or with physical changes of state within the confines of the laws of thermodynamics. The subject involves the study of laboratory measurements of various thermodynamic properties and also the study of application of mathematical methods and calculations to the chemical equations.

The subject of chemical Thermodynamics is based on the laws of thermodynamics. The study of laws of thermodynamics leads to the derivation of the fundamental equations of thermodynamics or the equations of Gibbs.

J William Gibbs, who was an American mathematical physicist published a series of papers in which he showed mathematically how to determine the thermodynamic equilibrium of chemical equations.

Heat and work are both forms energy. They are related in a sense that one can be transformed into the other form. Heat from steam can be used to run a train, or the friction between two things can cause heat. Heat and work can be described using the same unit of measure. Calorie is used as a unit of measure and it refers to the amount of heat required to raise one gram of water one degree Celsius. Heat energy is measured in kilocalories or 1000 calories. A fully grown man requires 2000 calories or 2Kcal of energy everyday to perform his routine activities. On the other hand Joules or Kilojoules is used to measure energy required to perform work. One Joule is equivalent to the energy required to lift a hundred gram object in air to a height of one meter. One Calorie is equal to 4.187 Joules.

C = q/MΔT

Where C = Specific heat in cal/g - ̊C

q = heat added in calories

m = mass in grams

ΔT = rise in temperature of the material ̊C

The value for C for water is 1.00 cal/g- ̊C

The first law of thermodynamics

Energy is conserved. In other words energy cannot be created or destroyed. One change the form of energy but it cannot create it or destroy it.

The mathematical statement of the first law is phrased in terms of a process. Given any change or process.

Initial state ----- Final State

ΔU = Ufinal - Uinitial

The second law of thermodynamics

It is impossible for heat to move from spontaneously from a cold body to a hot body with no other result,

It is impossible to convert heat quantitatively into work with no other result

For more details you can visit our website at http://www.helpwithassignment.com/chemical-engineering-assignment-help and http://www.helpwiththesis.com

No comments: