MAHARASHTRA STATE BOARD
CLASS XI AND XII
CHAPTER 4
THERMODYNAMICS
CONTENT
Introduction
Thermal equilibrium
Zeroth law of
Thermodynamics
Heat, internal energy and
work
First law of
thermodynamics
Specific heat capacity
Thermodynamic state
variables and equation of
state
Thermodynamic processes
Heat engines
Refrigerators and heat
pumps
Second law of
thermodynamics
Reversible and irreversible
processes
Carnot engine
Energy Conversion and Rural ElectrificationTesfaye Birara
Energy conversion is the process of changing one form of energy into another, a fundamental capability that enables modern civilization to function. It can occur in various ways, from converting the kinetic energy of wind into mechanical power through windmills to transforming solar energy into electrical energy in solar panels. This transformation is essential not just for daily usage but also for harnessing and utilizing natural resources more efficiently. In the context of rural electrification, this process plays a critical role. By converting available local energy resources into electricity, rural communities can access a stable and reliable power supply. This not only improves the quality of life but also supports economic development by powering homes, schools, businesses, and healthcare facilities. Consequently, energy conversion facilitates the broader goal of rural electrification, demonstrating the interconnection between technological innovation and societal advancement.
These slides cover detailed information about laws of thermodynamics.It include 1st law definition and then its limitation and then entropy etc.Once you read this you will get know about detailed concept of thermodynamics and its laws with examples.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Hybrid optimization of pumped hydro system and solar- Engr. Abdul-Azeez.pdffxintegritypublishin
Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
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MAHARASHTRA STATE BOARD
CLASS XI AND XII
CHAPTER 4
THERMODYNAMICS
CONTENT
Introduction
Thermal equilibrium
Zeroth law of
Thermodynamics
Heat, internal energy and
work
First law of
thermodynamics
Specific heat capacity
Thermodynamic state
variables and equation of
state
Thermodynamic processes
Heat engines
Refrigerators and heat
pumps
Second law of
thermodynamics
Reversible and irreversible
processes
Carnot engine
Energy Conversion and Rural ElectrificationTesfaye Birara
Energy conversion is the process of changing one form of energy into another, a fundamental capability that enables modern civilization to function. It can occur in various ways, from converting the kinetic energy of wind into mechanical power through windmills to transforming solar energy into electrical energy in solar panels. This transformation is essential not just for daily usage but also for harnessing and utilizing natural resources more efficiently. In the context of rural electrification, this process plays a critical role. By converting available local energy resources into electricity, rural communities can access a stable and reliable power supply. This not only improves the quality of life but also supports economic development by powering homes, schools, businesses, and healthcare facilities. Consequently, energy conversion facilitates the broader goal of rural electrification, demonstrating the interconnection between technological innovation and societal advancement.
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Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
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2. Thermodynamics
• Thermodynamics is the study of the
effects of work, heat, and energy on a
system
• Thermodynamics is only concerned with
macroscopic (large-scale) changes and
observations
3. Getting Started
• All of thermodynamics can be expressed
in terms of four quantities
– Temperature (T)
– Internal Energy (U)
– Entropy (S)
– Heat (Q)
• These quantities will be defined as we
progress through the lesson
4. Classical vs Statistical
• Classical thermodynamics concerns the
relationships between bulk properties of
matter. Nothing is examined at the atomic
or molecular level.
• Statistical thermodynamics seeks to
explain those bulk properties in terms of
constituent atoms. The statistical part
treats the aggregation of atoms, not the
behavior of any individual atom
5. Introduction
According to British scientist C. P. Snow,
the three laws of thermodynamics can be
(humorously) summarized as
1. You can’t win
2. You can’t even break even
3. You can’t get out of the game
6. 1.0 You can’t win (1st law)
• The first law of thermodynamics is an
extension of the law of conservation of
energy
• The change in internal energy of a system
is equal to the heat added to the system
minus the work done by the system
ΔU = Q - W
8. 1.1 Process Terminology
• Adiabatic – no heat transferred
• Isothermal – constant temperature
• Isobaric – constant pressure
• Isochoric – constant volume
9. 1.1.1 Adiabatic Process
• An adiabatic process transfers no heat
– therefore Q = 0
• ΔU = Q – W
• When a system expands adiabatically, W
is positive (the system does work) so ΔU is
negative.
• When a system compresses adiabatically,
W is negative (work is done on the
system) so ΔU is positive.
10. 1.1.2 Isothermal Process
• An isothermal process is a constant
temperature process. Any heat flow into or
out of the system must be slow enough to
maintain thermal equilibrium
• For ideal gases, if ΔT is zero, ΔU = 0
• Therefore, Q = W
– Any energy entering the system (Q) must
leave as work (W)
11. 1.1.3 Isobaric Process
• An isobaric process is a constant pressure
process. ΔU, W, and Q are generally non-
zero, but calculating the work done by an
ideal gas is straightforward
W = P·ΔV
• Water boiling in a saucepan is an example
of an isobar process
12. 1.1.4 Isochoric Process
• An isochoric process is a constant volume
process. When the volume of a system
doesn’t change, it will do no work on its
surroundings. W = 0
ΔU = Q
• Heating gas in a closed container is an
isochoric process
13. 1.2 Heat Capacity
• The amount of heat required to raise a
certain mass of a material by a certain
temperature is called heat capacity
Q = mcxΔT
• The constant cx is called the specific heat
of substance x, (SI units of J/kg·K)
14. 1.2.1 Heat Capacity of Ideal Gas
• CV = heat capacity at constant volume
CV = 3/2 R
• CP = heat capacity at constant pressure
CP = 5/2 R
• For constant volume
Q = nCVΔT = ΔU
• The universal gas constant R = 8.314 J/mol·K
15. 2.0 You can’t break even (2nd Law)
• Think about what it means to not “break
even”. Every effort you put forth, no matter
how efficient you are, will have a tiny bit of
waste.
• The 2nd Law can also be stated that heat
flows spontaneously from a hot object to a
cold object (spontaneously means without the assistance of
external work)
17. 2.1 Concerning the 2nd Law
• The second law of thermodynamics
introduces the notion of entropy (S), a
measure of system disorder (messiness)
• U is the quantity of a system’s energy, S is
the quality of a system’s energy.
• Another C.P. Snow expression:
– not knowing the 2nd law of thermodynamics is the cultural
equivalent to never having read Shakespeare
18. 2.2 Implications of the 2nd Law
• Time marches on
– If you watch a movie, how do you know that
you are seeing events in the order they
occurred?
– If I drop a raw egg on the floor, it becomes
extremely “disordered” (greater Entropy) –
playing the movie in reverse would show
pieces coming together to form a whole egg
(decreasing Entropy) – highly unlikely!
19. 2.3 Direction of a Process
• The 2nd Law helps determine the preferred
direction of a process
• A reversible process is one which can
change state and then return to the
original state
• This is an idealized condition – all real
processes are irreversible
20. 2.4 Heat Engine
• A device which transforms heat into work
is called a heat engine
• This happens in a cyclic process
• Heat engines require a hot reservoir to
supply energy (QH) and a cold reservoir to
take in the excess energy (QC)
– QH is defined as positive, QC is negative
21. 2.4.1 Cycles
• It is beyond the scope of this presentation,
but here would be a good place to
elaborate on:
– Otto Cycle
– Diesel Cycle
– Carnot Cycle
• Avoid all irreversible processes while adhering to
the 2nd Law (isothermal and adiabatic only)
23. 2.4.2.1 Carnot explained
• Curve A (1 → 2): Isothermal expansion at TH
– Work done by the gas
• Curve B (2 → 3): Adiabatic expansion
– Work done by the gas
• Curve C (3 → 4): Isothermal compression at TC
– Work done on the gas
• Curve D (4 → 1): Adiabatic compression
– Work done on the gas
24. 2.4.2.2 Area under PV curve
• The area under the PV curve represents
the quantity of work done in a cycle
• When the curve goes right to left, the work
is negative
• The area enclosed by the four curves
represents the net work done by the
engine in one cycle
25. 2.5 Engine Efficiency
• The thermal efficiency of a heat engine is
e = 1 + QC/QH
• The “engine” statement of the 2nd Law:
– it is impossible for any system to have an
efficiency of 100% (e = 1) [Kelvin’s statement]
• Another statement of the 2nd Law:
– It is impossible for any process to have as its
sole result the transfer of heat from a cooler
object to a warmer object [Clausius’s statement]
26. 2.6 Practical Uses
• Automobile engines, refrigerators, and air
conditioners all work on the principles laid
out by the 2nd Law of Thermodynamics
• Ever wonder why you can’t cool your
kitchen in the hot summer by leaving the
refrigerator door open?
– Feel the air coming off the back - you heat the
air outside to cool the air inside
– See, you can’t break even!
27. 3.0 You can’t get out (3rd Law)
• No system can reach absolute zero
• This is one reason we use the Kelvin
temperature scale. Not only is the internal
energy proportional to temperature, but
you never have to worry about dividing by
zero in an equation!
• There is no formula associated with
the 3rd Law of Thermodynamics
28. 3.1 Implications of 3rd Law
• MIT researchers achieved 450 picokelvin
in 2003 (less than ½ of one billionth!)
• Molecules near these temperatures have
been called the fifth state of matter:
Bose-Einstein Condensates
– Awesome things like super-fluidity and super-
conductivity happen at these temperatures
– Exciting frontier of research
29. 4.0 The Zeroth Law
• The First and Second Laws were well
entrenched when an additional Law was
recognized (couldn’t renumber the 1st and 2nd Laws)
• If objects A and B are each in thermal
equilibrium with object C, then A and B are
in thermal equilibrium with each other
• Allows us to define temperature relative to
an established standard
31. 4.1 Temperature Standards
• See Heat versus Temperature slides for a
discussion of these two concepts, and the
misconceptions surrounding them
– Heat is energy transfer
– Temperature is proportional to internal energy
– Fahrenheit, Celsius, and Kelvin temp scales