Online Reference Book by Aleksandrov A.A., Orlov K.A., Ochkov V.F.

"Properties and processes of working substances and materials of nuclear power engineering"

Publishing house of MPEI, 2013.

1. Thermophysical properties of substances

1.1. Water and Steam

1.1.1. Thermodynamic properties of water and steam at the saturation state (as a function of temperature): on-line calculation

1.1.2. Surface tension of water, isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number of water and steam at the saturation state: on-line calculation

1.1.3. Thermodynamic properties of water and steam at the saturation state (as a function of pressure): on-line calculation

1.1.4. Thermodynamic properties of water and steam: on-line calculation as a function of (p, t)   calculation as a function of (p, h)   calculation as a function of (p, s)    calculation as a function of (h, s)

1.1.5. Thermodynamic properties of metastable supercooled steam: on-line calculation as a function of (p, t)   calculation as a function of (p, h)    calculation as a function of (p, s)

1.1.6. Thermodynamic properties of wet steam: on-line calculation

1.1.7. Dynamic viscosity, thermal conductivity, Prandtl number, negative logarithm of the ionization constant, static dielectric constant of water and steam: on-line calculation

Package of functions for calculation of thermophysical properties of water in Mathcad 14/15: download

1.2. Thermophysical properties of heavy water

1.2.1. Thermodynamic properties of heavy water at the saturation state (as a function of temperature): on-line calculation

1.2.2. Surface tension, isobaric heat capacity, dynamic viscosity, thermal conductivity, Prandtl number of heavy water at the saturation state: on-line calculation

1.2.3. Thermodynamic properties of heavy water at the saturation state (as a function of pressure): on-line calculation

1.2.4. Thermodynamic properties of heavy water: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

1.2.5. Dynamic viscosity, thermal conductivity, Prandtl number for heavy water: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

Package of functions for calculation of thermophysical properties of heavy water in Mathcad 14/15: download

1.3. Thermophysical properties of hydrogen

1.3.1. Thermodynamic properties of hydrogen: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

1.3.2. Dynamic viscosity, thermal conductivity, Prandtl number of hydrogen: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

Package of functions for calculation of thermophysical properties of hydrogen in Mathcad 14/15: download

1.4. Thermophysical properties of helium

1.4.1. Thermodynamic properties of helium: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

1.4.2. Dynamic viscosity, thermal conductivity, Prandtl number of helium: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

Package of functions for calculation of thermophysical properties of helium in Mathcad 14/15: download

1.5. Thermophysical properties of argon

1.5.1. Thermodynamic properties of argon: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

1.5.2. Dynamic viscosity, thermal conductivity, Prandtl number of argon: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

Package of functions for calculation of thermophysical properties of argon in Mathcad 14/15: download

1.6. Thermophysical properties of air

1.6.1. Thermodynamic properties of air: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

1.6.2. Dynamic viscosity, thermal conductivity, Prandtl number of air: on-line calculation as a function of (p, t)   calculation as a function of (density, t)

Package of functions for calculation of thermophysical properties of air in Mathcad 14/15: download

1.7. Thermophysical properties of lead

1.7.2. Thermodynamic properties of lead: on-line calculation

Package of functions for calculation of thermophysical properties of lead in Mathcad 14/15: download

Reference on Mathcad 15 "cloud" function: density, коэффициент объемного термического расширения, скорость звука; теплопроводность, динамическая вязкость, удельная изобарная теплоемкость, число Прандтля, поверхностное натяжение
                Примеры использования "облачных" функций: расчет массы свинцового бруска,    расчет теплового потока и температурного поля плоской стенки, заполненной жидким свинцом, расчет потери напора в горизонтальном трубопроводе с жидким свинцом 

1.8. Thermophysical properties of bismuth

1.8.1. Thermodynamic properties of bismuth: on-line calculation

Package of functions for calculation of thermophysical properties of bismuth in Mathcad 14/15: download

1.9. Thermophysical properties of gallium

1.9.1. Thermodynamic properties of gallium: on-line calculation

Package of functions for calculation of thermophysical properties of gallium in Mathcad 14/15: download

1.10. Thermophysical properties of lead - bismuth eutectic alloy

1.10.1. Thermodynamic properties of lead - bismuth eutectic alloy: on-line calculation

Package of functions for calculation of thermophysical properties of lead - bismuth eutectic alloy in Mathcad 14/15: download

1.11. Thermophysical properties of lithium

1.11.2. Thermodynamic properties of lithium at the saturation state: on-line calculation

1.11.3. Isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of lithium at the saturation state: on-line calculation

Package of functions for calculation of thermophysical properties of lithium in Mathcad 14/15: download

1.12. Thermophysical properties of sodium

1.12.1. Thermodynamic properties of sodium at the saturation state: on-line calculation

1.12.2. Isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of sodium at the saturation state: on-line calculation

Package of functions for calculation of thermophysical properties of sodium in Mathcad 14/15: download

1.13. Thermophysical properties of potassium

1.13.1. Thermodynamic properties of potassium at the saturation state: on-line calculation

1.13.2. Isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of potassium at the saturation state: on-line calculation

Package of functions for calculation of thermophysical properties of potassium in Mathcad 14/15: download

1.14. Thermophysical properties of caesium

1.14.1 Density, isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of caesium: on-line calculation

Package of functions for calculation of thermophysical properties of caesium in Mathcad 14/15: download

1.15. Thermophysical properties of uranium

1.15.2 Density, isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of uranium: on-line calculation

Package of functions for calculation of thermophysical properties of uranium in Mathcad 14/15: download

1.16. Thermophysical properties of plutonium

1.16.1 Density, isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of plutonium: on-line calculation

Package of functions for calculation of thermophysical properties of plutonium in Mathcad 14/15: download

1.17. Thermophysical properties of thorium

1.17.1 Density, isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of thorium: on-line calculation

Package of functions for calculation of thermophysical properties of thorium in Mathcad 14/15: download

1.18. Thermophysical properties of uranium dioxide

1.18.1 Density, isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of uranium dioxide: on-line calculation

Package of functions for calculation of thermophysical properties of uranium dioxide in Mathcad 14/15: download

1.19. Thermophysical properties of graphite

1.19.1 Density, isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of graphite: on-line calculation

Package of functions for calculation of thermophysical properties of graphite in Mathcad 14/15: download

1.20. Thermophysical properties of zirconium

1.20.1 Density, isobaric heat capacity, thermal conductivity, dynamic viscosity, Prandtl number and surface tension of zirconium: on-line calculation

Package of functions for calculation of thermophysical properties of zirconium in Mathcad 14/15: download

2. Working processes and cycles of nuclear power plants

2.1. Calculation of the flow of various substances through the convergent nozzle

2.1.1. Calculation of the flow of steam through the convergent nozzle: on-line calculation

2.1.2. Calculation of the flow of wet steam through the convergent nozzle: on-line calculation

2.1.3. Calculation of the flow of meta-stable supercooled steam through the convergent nozzle: on-line calculation

2.1.4. Calculation of the flow of air through the convergent nozzle: on-line calculation

2.1.5. Calculation of the flow of helium through the convergent nozzle: on-line calculation

2.1.6. Calculation of the flow of hydrogen through the convergent nozzle: on-line calculation

2.2. Calculation of the flow of steam through the Laval nozzle

2.2.1. Calculation of the flow of steam through the Laval nozzle: on-line calculation

2.3. The expansion of steam in the turbine

2.3.1. Calculation of the expansion of steam in the turbine: on-line calculation

2.4. The compression of ordinary and heavy water in the pump

2.4.1. Calculation of the compression of water in the pump: on-line calculation

2.4.2. Calculation o the compression of heavy water in the pump: on-line calculation

2.5. The temperature in the steam turbine condenser

2.5.1. Calculation of the temperature in the steam turbine condenser: on-line calculation

2.6. The Rankine cycle with superheated steam

2.6.1. Calculation of the Rankine cycle with superheated steam: on-line calculation

2.7. The regenerative Rankine cycle

2.7.1. Calculation of the Rankine cycle with one regenerative heating stage: on-line calculation
2.7.2. Calculation of the Rankine cycle with two regenerative heating stages: on-line calculation
2.7.3. Calculation of the Rankine cycle with the pressure optimization in the regenerative bleed-off: on-line calculation

2.8. The cycle of the nuclear power plant with steam turbine and WWER (water - water energetic reactor)

2.8.1. Calculation of the cycle of the nuclear power plant with steam turbine and WWER: on-line calculation

2.9. The cycle of the nuclear power plant with steam turbine and high power channel-type reactor

2.9.1. Calculation of the cycle of the nuclear power plant with steam turbine and high power channel-type reactor: on-line calculation

2.10. Coolant flow rate in the fast-neutron reactor BN-600

2.10.1. Calculation of the coolant flow rate in the first circuit of the fast-neutron reactor BN-600: on-line calculation

2.11. Ratio of the coolant flow rate of the fast-neutron reactor BREST-1200

2.11.1. Calculation of the ratio of the coolant flow rate of the first and second circuits of the fast-neutron reactor BREST-1200: on-line calculation

 

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