| AEEC Home | Training Index | Index | Top | Previous | Next |
| ECCJ / TextReport | India |
|
4.1.4 Setting an energy conservation target (1) Clarification of an energy conservation policy by the manager (2) Drawing up and implementing concrete targets and plans by related department 4.1.5 Obtaining a grasp of the energy use situation (1) Installing the necessary measuring instruments (2) Obtaining a quantitative grasp of the flow of energy (3) Analyzing the relationship between the operation conditions and the quantity of energy used (4) Recording and arranging measured values, and displaying them in the form of a graph 4.1.6 Management of basic unit of energy 4.1.7 Drawing up remedial measures 4.1.8 Concrete plan for remedial measures, and implementation 4.2 Basics of Energy Management Technology 4.2.1 Basics of energy (1) Basics of statistics (A) Arranging data (B) Analyzing data (2) Motion and work (A) Displacement and velocity (B) Constant velocity linear motion (C) Acceleration (D) Free fall motion (E) Magnitude of force (F) Laws of motion (G) Motion of object that is subjected to wear (H) Work and power (I) Constant speed circular motion (3) Mechanical energy (A) Kinetic energy (B) Position energy (4) Heat and energy (A) Heat energy and temperature |
|
(B) Heat quantity and specific heat (5) Thermal behavior of a gas (A) Molecular motion and pressure of a gas (B) Atmospheric pressure (C) State equation for ideal gas (6) First law of thermodynamics (A) Internal energy (B) Heat, work and internal energy (C) Adiabatic change (7) Second law of thermodynamics (8) Heat transmission (A) Three forms of heat transmission (B) Conduction (C) Convection (heat transfer) (D) Radiation heat transfer (E) Resemblance between thermal system and electrical system (9) Fluid mechanics (A) Hydrostatics (B) Hydrodynamics (10) Electrical circuit (direct current) (A) Electrical circuit and direct current/alternating current (B) Current and electrons (a) Free electrons (b) Direction and magnitude of current (c) Potential, potential difference, voltage, electromotive force (C) Ohm’s law (a) Ohm’s law (b) Connecting resistors in series (c) Connecting resistors in parallel (D) Nature of resistance (a) Resistivity (b) Permittivity (c) Temperature coefficient of resistance (E) Power consumption and heat generation |
|
(a) Electric power and electric energy (b) Mechanism of heat generated due to current flow (F) Chemical action of electricity, and batteries (a) Electrolysis (b) Faraday’s law (c) Battery (G) Current and magnetic field (a) Ampere’s right-hand screw rule (b) Electromagnetic force and magnetomotive force (c) Magnetic circuit (d) Magnetic resistance and permeability (e) Magnetic density and magnetic field strength (H) Force that acts on a current in a magnetic field (a) Magnitude and direction of electromagnetic force (Fleming’s left-hand rule) (b) Force that acts on a coil in a magnetic field (I) Electromagnetic induction (a) Electromagnetic induction and induced electromagnetic force (b) Magnitude and direction of induced electromotive force (c) Induced electromotive force generated when a conductor passes through magnetic flux (d) Eddy current (J) Self induction and mutual induction (a) Self induction and self inductance (d) Mutual induction and mutual inductance (K) Capacitor (a) Electrostatic capacitance (b) Connecting capacitors in parallel (c) Connecting capacitors in series (11) Electric circuit (alternating current) (A) Sine wave current (a) Generation of sine wave current (b) Period and frequency |
|
(c) Angular frequency (d) Phase and phase difference (e) RMS value (B) AC circuit computations (a) Current flowing through a resistance, coil and capacitor (b) DC circuit and impedance (C) AC circuit electric power (a) AC electric power (b) Power factor improvement (D) 3-phase alternating current (a) Generation of 3-phase alternating current (b) 3-phase AC circuit (c) 3-phase AC electric power (12) Heat energy and electric energy (A) Definition of energy (B) Heat energy (C) Electric energy 4.2.2 Management technology related to judgment criteria (1) Fuel and combustion management (A) Fuel (B) Combustion (C) Combustion management and energy conservation (2) Steam (A) Nature of steam (B) Steam tables and steam diagram (C) Damp air (3) Boiler (A) Configurations and types of boilers (B) Capacity and efficiency of boilers (C) Energy conservation measures for boilers (4) Steam system (A) Management of steam feed pipes (B) Rationalization of thermal insulation (C) Steam heating equipment (effective use of steam) |
| 15/22 Next |
| AEEC Home | Training Index | Index | Top | Previous | Next |
| Copyright(C) ECCJ 1996-2019 |