1 Heat, Temperature, And Pressure 2 Matter And Energy 3 Refrigeration And Refrigerants 4 General Safety Practices 5 Tools And Equipment 6 Fasteners 7 Tubing And Piping 8 Leak Detection, System Evacuation, And System Cleanup 9 Refrigerant And Oil Chemistry And Management-recovery, Recycling, 10 System Charging 11 Calibrating Instruments 12 Basic Electricity And Magnetism 13 Introduction To Automatic Controls 14 Automatic Control Components And Applications 15 Troubleshooting Basic Controls 16 Advanced Automatic Controls-direct Digital Controls (ddcs) And Pneumatics 17 Types Of Electric Motors 18 Application Of Motors 19 Motor Controls 20 Troubleshooting Electric Motors 21 Evaporators And The Refrigeration System 22 Condensers 23 Compressors 24 Expansion Devices 25 Special Refrigeration System Components 26 Applications Of Refrigeration Systems 27 Commercial Ice Machines 28 Special Refrigeration Applications 29 Troubleshooting And Typical Operating Conditions For Commercial refrigeration 30 Electric Heat 31 Gas Heat 32 Oil Heat 33 Hydronic Heat 34 Indoor Air Quality 35 Comfort And Psychrometrics 36 Refrigeration Applied To Air-conditioning 37 Air Distribution And Balance 38 Installation 39 Residential Energy Auditing 40 Typical Operating Conditions 41 Troubleshooting 42 Heat Gains And Heat Losses In Structures 43 Air Source Heat Pumps 44 Geothermal Heat Pumps 45 Domestic Refrigerators And Freezers 46 Room Air Conditioners 47 High-pressure, Low-pressure, And Absorption Chilled-water Systems 48 Cooling Towers And Pumps 49 Operation, Maintenance, And Troubleshooting Of Chilled-water Air-conditioning Systems 50 Commercial, Packaged Rooftop, Variable Refrigerant Flow, And Variable Air Volume Systems Chapter40: Typical Operating Conditions
Chapter Questions Section: Chapter Questions
Problem 1RQ: The standard design conditions for air-conditioning systems established by the Air-Conditioning,... Problem 2RQ: The typical temperature relationship between a standard-efficiency air-cooled condenser and the... Problem 3RQ: The evaporator will normally operate at a(n) _____F boiling temperature when the indoor temperature... Problem 4RQ: A typical temperature relationship between a high-efficiency condenser and the ambient temperature... Problem 5RQ: How is condenser high efficiency obtained? Problem 6RQ: High-efficiency air-conditioning systems may use a(n) ______rather than a fixed-bore metering... Problem 7RQ: What does the head pressure do If the suction pressure rises? Problem 8RQ: What will cause the suction pressure to rise? Problem 9RQ: The evaporator design temperature may in some cases operate at a slightly ____(higher or lower)... Problem 10RQ: The seasonal energy efficiency ratio (SEER) includes the energy used in the _____and _____cycles. Problem 11RQ: The electrical operating conditions are measured with and a(n) ______and a(n)_____. Problem 12RQ: The three major power-consuming devices on an air-conditioning system that may have to be analyzed... Problem 13RQ: Air-conditioning systems normally move about _____cfm of air per ton. Problem 14RQ: The compressor amperage of a 3-ton system operating on 230 V is approximately -A. Problem 15RQ: Many ratings for components of an air-conditioning system are not completely accurate due to many... Problem 10RQ: The seasonal energy efficiency ratio (SEER) includes the energy used in the _____and _____cycles.
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Thermodynamics . Please make a solution and the answer should be in three decimal places
Transcribed Image Text: How much flow energy in kW required to move 3000liters/min. of water
inside the pipe against a pressure whose value is ranging from 100kPa to
300kPa?
a. 15
b. 5
C. 20
O d. 10
Science that deals with the amount of energy transferred from one equilibrium state to another equilibrium state.
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