More Related Content Similar to WATS 4 (1-50) Fluid Mechanics and Thermodynamics (20) More from Mark Russell (7) WATS 4 (1-50) Fluid Mechanics and Thermodynamics1. Fluid Mechanics and Thermodynamics<br />Weekly Assessed Tutorial Sheets,<br />Student Sheets: WATS 4.<br />The WATS approach to assessment was developed as part of an LTSN Engineering Mini-Project, funded at the University of Hertfordshire which aimed to develop a set of 'student unique' tutorial sheets to actively encourage and improve student participation within a first year first ‘fluid mechanics and thermodynamics’ module. Please see the accompanying Mini-Project Report “Improving student success and retention through greater participation and tackling student-unique tutorial sheets” for more information.<br />The WATS cover core Fluid Mechanics and Thermodynamics topics at first year undergraduate level. 11 tutorial sheets and their worked solutions are provided here for you to utilise in your teaching. The variables within each question can be altered so that each student answers the same question but will need to produce a unique solution.<br />FURTHER INFORMATION<br />Please see http://tinyurl.com/2wf2lfh to access the WATS Random Factor Generating Wizard. <br />There are also explanatory videos on how to use the Wizard and how to implement WATS available at http://www.youtube.com/user/MBRBLU#p/u/7/0wgC4wy1cV0 and http://www.youtube.com/user/MBRBLU#p/u/6/MGpueiPHpqk.<br />For more information on WATS, its use and impact on students please contact Mark Russell, School of Aerospace, Automotive and Design Engineering at University of Hertfordshire.<br /> <br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number1NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-3.20 kJ and W1 = -22.70kJ<br />Process 2Q2 = 79.80kJ and W2 = -68.50kJ<br />Process 3Q3 = 73.70kJ and W3 = -14.40kJ<br />If the work transfer during the fourth process i.e. W4, is -59.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 26C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 36C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 36C (1 mark)<br />Q3 0.60kg of water enter a device as a saturated vapour at 0.26 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number2NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-13.00 kJ and W1 = 63.90kJ<br />Process 2Q2 = -17.00kJ and W2 = 52.60kJ<br />Process 3Q3 = 28.00kJ and W3 = 42.90kJ<br />If the work transfer during the fourth process i.e. W4, is 39.70 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 26C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 26C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 32C (1 mark)<br />Q3 0.20kg of water enter a device as a saturated vapour at 0.18 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number3NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-7.90 kJ and W1 = -12.20kJ<br />Process 2Q2 = 72.10kJ and W2 = -18.70kJ<br />Process 3Q3 = -65.20kJ and W3 = 59.90kJ<br />If the work transfer during the fourth process i.e. W4, is 59.30 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 28C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 30C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 32C (1 mark)<br />Q3 0.50kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number4NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-9.70 kJ and W1 = 11.50kJ<br />Process 2Q2 = -0.10kJ and W2 = 5.60kJ<br />Process 3Q3 = -34.40kJ and W3 = -33.00kJ<br />If the work transfer during the fourth process i.e. W4, is -21.80 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 24C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 26C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 26C (1 mark)<br />Q3 0.70kg of water enter a device as a saturated vapour at 0.28 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number5NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-49.70 kJ and W1 = -41.60kJ<br />Process 2Q2 = 44.60kJ and W2 = 61.20kJ<br />Process 3Q3 = -15.60kJ and W3 = 41.20kJ<br />If the work transfer during the fourth process i.e. W4, is 48.10 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 34C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 36C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 30C (1 mark)<br />Q3 0.90kg of water enter a device as a saturated vapour at 0.24 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number6NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-69.10 kJ and W1 = 41.30kJ<br />Process 2Q2 = 51.10kJ and W2 = -29.20kJ<br />Process 3Q3 = -8.80kJ and W3 = 16.80kJ<br />If the work transfer during the fourth process i.e. W4, is -41.80 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 30C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 30C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 38C (1 mark)<br />Q3 0.90kg of water enter a device as a saturated vapour at 0.12 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number7NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =25.00 kJ and W1 = -0.40kJ<br />Process 2Q2 = -14.30kJ and W2 = 2.50kJ<br />Process 3Q3 = -52.30kJ and W3 = 44.40kJ<br />If the work transfer during the fourth process i.e. W4, is -48.30 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 26C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 40C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 26C (1 mark)<br />Q3 0.50kg of water enter a device as a saturated vapour at 0.28 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number8NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =11.10 kJ and W1 = -31.70kJ<br />Process 2Q2 = -30.50kJ and W2 = -29.60kJ<br />Process 3Q3 = -28.50kJ and W3 = 43.70kJ<br />If the work transfer during the fourth process i.e. W4, is 1.90 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 24C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 22C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 26C (1 mark)<br />Q3 1.00kg of water enter a device as a saturated vapour at 0.14 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number9NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =58.10 kJ and W1 = -13.50kJ<br />Process 2Q2 = -65.90kJ and W2 = -56.30kJ<br />Process 3Q3 = 3.20kJ and W3 = -46.50kJ<br />If the work transfer during the fourth process i.e. W4, is 70.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 38C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 36C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 28C (1 mark)<br />Q3 0.90kg of water enter a device as a saturated vapour at 0.28 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number10NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =28.00 kJ and W1 = 48.20kJ<br />Process 2Q2 = 45.60kJ and W2 = 69.50kJ<br />Process 3Q3 = 12.20kJ and W3 = 65.20kJ<br />If the work transfer during the fourth process i.e. W4, is 33.80 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 22C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 34C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 34C (1 mark)<br />Q3 1.10kg of water enter a device as a saturated vapour at 0.22 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number11NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-77.80 kJ and W1 = -78.60kJ<br />Process 2Q2 = 42.10kJ and W2 = -67.40kJ<br />Process 3Q3 = -75.00kJ and W3 = 24.70kJ<br />If the work transfer during the fourth process i.e. W4, is -16.80 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 34C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 34C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 20C (1 mark)<br />Q3 1.10kg of water enter a device as a saturated vapour at 0.14 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number12NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =55.50 kJ and W1 = -79.80kJ<br />Process 2Q2 = -11.00kJ and W2 = -0.60kJ<br />Process 3Q3 = -58.30kJ and W3 = -73.20kJ<br />If the work transfer during the fourth process i.e. W4, is 42.60 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 28C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 34C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 20C (1 mark)<br />Q3 0.60kg of water enter a device as a saturated vapour at 0.12 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number13NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =63.30 kJ and W1 = 15.70kJ<br />Process 2Q2 = 37.60kJ and W2 = 49.20kJ<br />Process 3Q3 = 25.70kJ and W3 = -71.30kJ<br />If the work transfer during the fourth process i.e. W4, is 9.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 34C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 30C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 36C (1 mark)<br />Q3 0.50kg of water enter a device as a saturated vapour at 0.30 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number14NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =47.20 kJ and W1 = -10.90kJ<br />Process 2Q2 = 11.60kJ and W2 = -60.70kJ<br />Process 3Q3 = -47.70kJ and W3 = -34.90kJ<br />If the work transfer during the fourth process i.e. W4, is -35.90 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 36C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 40C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 28C (1 mark)<br />Q3 0.60kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number15NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =3.20 kJ and W1 = 13.30kJ<br />Process 2Q2 = 6.90kJ and W2 = -72.20kJ<br />Process 3Q3 = 58.60kJ and W3 = 73.20kJ<br />If the work transfer during the fourth process i.e. W4, is -8.00 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 38C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 32C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 28C (1 mark)<br />Q3 0.80kg of water enter a device as a saturated vapour at 0.18 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number16NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-41.40 kJ and W1 = -32.10kJ<br />Process 2Q2 = 29.70kJ and W2 = 59.50kJ<br />Process 3Q3 = 3.70kJ and W3 = -50.40kJ<br />If the work transfer during the fourth process i.e. W4, is -76.10 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 26C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 26C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 30C (1 mark)<br />Q3 0.30kg of water enter a device as a saturated vapour at 0.12 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number17NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-78.30 kJ and W1 = -7.80kJ<br />Process 2Q2 = -62.90kJ and W2 = -79.90kJ<br />Process 3Q3 = -79.70kJ and W3 = -74.40kJ<br />If the work transfer during the fourth process i.e. W4, is 39.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 30C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 22C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 38C (1 mark)<br />Q3 1.10kg of water enter a device as a saturated vapour at 0.18 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number18NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =69.80 kJ and W1 = 20.70kJ<br />Process 2Q2 = 26.70kJ and W2 = -56.60kJ<br />Process 3Q3 = 65.20kJ and W3 = -14.10kJ<br />If the work transfer during the fourth process i.e. W4, is 39.30 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 38C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 32C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 38C (1 mark)<br />Q3 1.10kg of water enter a device as a saturated vapour at 0.18 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number19NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =39.80 kJ and W1 = -72.20kJ<br />Process 2Q2 = -61.60kJ and W2 = 57.00kJ<br />Process 3Q3 = 73.00kJ and W3 = 55.10kJ<br />If the work transfer during the fourth process i.e. W4, is 28.80 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 36C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 20C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 32C (1 mark)<br />Q3 0.80kg of water enter a device as a saturated vapour at 0.14 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number20NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =67.90 kJ and W1 = 24.70kJ<br />Process 2Q2 = -24.60kJ and W2 = -29.70kJ<br />Process 3Q3 = 77.80kJ and W3 = 17.70kJ<br />If the work transfer during the fourth process i.e. W4, is -57.80 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 38C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 24C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 30C (1 mark)<br />Q3 0.70kg of water enter a device as a saturated vapour at 0.30 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number21NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =41.50 kJ and W1 = -65.20kJ<br />Process 2Q2 = 27.10kJ and W2 = 11.60kJ<br />Process 3Q3 = -72.50kJ and W3 = 55.70kJ<br />If the work transfer during the fourth process i.e. W4, is -52.40 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 22C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 32C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 34C (1 mark)<br />Q3 0.70kg of water enter a device as a saturated vapour at 0.16 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number22NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-70.40 kJ and W1 = -7.30kJ<br />Process 2Q2 = -39.10kJ and W2 = 17.60kJ<br />Process 3Q3 = -42.70kJ and W3 = 9.60kJ<br />If the work transfer during the fourth process i.e. W4, is -58.30 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 28C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 26C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 24C (1 mark)<br />Q3 0.50kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number23NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-23.40 kJ and W1 = 70.10kJ<br />Process 2Q2 = -52.70kJ and W2 = 61.50kJ<br />Process 3Q3 = -54.80kJ and W3 = 28.00kJ<br />If the work transfer during the fourth process i.e. W4, is -43.20 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 36C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 34C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 22C (1 mark)<br />Q3 1.00kg of water enter a device as a saturated vapour at 0.24 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number24NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =43.60 kJ and W1 = 56.10kJ<br />Process 2Q2 = 22.50kJ and W2 = -36.40kJ<br />Process 3Q3 = -43.60kJ and W3 = 9.40kJ<br />If the work transfer during the fourth process i.e. W4, is -13.60 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 30C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 30C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 26C (1 mark)<br />Q3 0.30kg of water enter a device as a saturated vapour at 0.28 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number25NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-76.70 kJ and W1 = 14.90kJ<br />Process 2Q2 = -5.60kJ and W2 = 11.20kJ<br />Process 3Q3 = -59.40kJ and W3 = 22.60kJ<br />If the work transfer during the fourth process i.e. W4, is 13.20 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 34C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 24C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 34C (1 mark)<br />Q3 0.60kg of water enter a device as a saturated vapour at 0.26 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number26NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-67.00 kJ and W1 = 6.90kJ<br />Process 2Q2 = 36.90kJ and W2 = 70.00kJ<br />Process 3Q3 = -52.60kJ and W3 = -69.40kJ<br />If the work transfer during the fourth process i.e. W4, is -53.40 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 34C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 28C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 34C (1 mark)<br />Q3 0.90kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number27NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =10.50 kJ and W1 = 77.70kJ<br />Process 2Q2 = -43.20kJ and W2 = 75.00kJ<br />Process 3Q3 = -15.50kJ and W3 = 1.90kJ<br />If the work transfer during the fourth process i.e. W4, is 11.80 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 28C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 32C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 20C (1 mark)<br />Q3 1.10kg of water enter a device as a saturated vapour at 0.28 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number28NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =58.20 kJ and W1 = 0.50kJ<br />Process 2Q2 = -40.10kJ and W2 = -36.00kJ<br />Process 3Q3 = 24.60kJ and W3 = 15.30kJ<br />If the work transfer during the fourth process i.e. W4, is -62.30 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 36C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 28C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 38C (1 mark)<br />Q3 0.50kg of water enter a device as a saturated vapour at 0.30 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number29NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =0.40 kJ and W1 = -3.70kJ<br />Process 2Q2 = 18.70kJ and W2 = 39.00kJ<br />Process 3Q3 = 65.40kJ and W3 = 2.90kJ<br />If the work transfer during the fourth process i.e. W4, is -31.70 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 20C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 20C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 24C (1 mark)<br />Q3 0.50kg of water enter a device as a saturated vapour at 0.28 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number30NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-21.20 kJ and W1 = 17.90kJ<br />Process 2Q2 = -50.40kJ and W2 = 61.30kJ<br />Process 3Q3 = 26.90kJ and W3 = 56.00kJ<br />If the work transfer during the fourth process i.e. W4, is 41.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 22C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 22C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 22C (1 mark)<br />Q3 1.20kg of water enter a device as a saturated vapour at 0.22 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number31NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =30.90 kJ and W1 = 20.70kJ<br />Process 2Q2 = -57.40kJ and W2 = 64.00kJ<br />Process 3Q3 = -47.10kJ and W3 = 19.40kJ<br />If the work transfer during the fourth process i.e. W4, is -78.20 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 28C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 22C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 36C (1 mark)<br />Q3 0.30kg of water enter a device as a saturated vapour at 0.14 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number32NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =76.70 kJ and W1 = 8.50kJ<br />Process 2Q2 = 48.70kJ and W2 = -11.60kJ<br />Process 3Q3 = 60.00kJ and W3 = -61.30kJ<br />If the work transfer during the fourth process i.e. W4, is 70.00 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 28C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 34C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 34C (1 mark)<br />Q3 0.30kg of water enter a device as a saturated vapour at 0.22 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number33NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-41.60 kJ and W1 = -44.60kJ<br />Process 2Q2 = 51.80kJ and W2 = -72.30kJ<br />Process 3Q3 = 59.90kJ and W3 = -74.80kJ<br />If the work transfer during the fourth process i.e. W4, is 37.20 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 26C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 32C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 28C (1 mark)<br />Q3 0.60kg of water enter a device as a saturated vapour at 0.14 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number34NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-41.70 kJ and W1 = 72.50kJ<br />Process 2Q2 = 66.80kJ and W2 = -75.20kJ<br />Process 3Q3 = -60.50kJ and W3 = 65.10kJ<br />If the work transfer during the fourth process i.e. W4, is 6.60 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 40C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 28C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 32C (1 mark)<br />Q3 0.50kg of water enter a device as a saturated vapour at 0.14 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number35NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =19.90 kJ and W1 = 1.80kJ<br />Process 2Q2 = 12.80kJ and W2 = 67.30kJ<br />Process 3Q3 = -55.10kJ and W3 = 75.60kJ<br />If the work transfer during the fourth process i.e. W4, is -52.40 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 32C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 38C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 24C (1 mark)<br />Q3 0.70kg of water enter a device as a saturated vapour at 0.16 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number36NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-63.10 kJ and W1 = 43.30kJ<br />Process 2Q2 = -17.00kJ and W2 = 66.10kJ<br />Process 3Q3 = -47.30kJ and W3 = 55.20kJ<br />If the work transfer during the fourth process i.e. W4, is 9.60 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 40C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 34C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 34C (1 mark)<br />Q3 0.80kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number37NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-64.30 kJ and W1 = 40.90kJ<br />Process 2Q2 = 58.10kJ and W2 = -57.80kJ<br />Process 3Q3 = 54.90kJ and W3 = 30.90kJ<br />If the work transfer during the fourth process i.e. W4, is 57.00 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 38C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 22C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 34C (1 mark)<br />Q3 0.80kg of water enter a device as a saturated vapour at 0.18 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number38NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-4.60 kJ and W1 = 70.20kJ<br />Process 2Q2 = 68.40kJ and W2 = -33.90kJ<br />Process 3Q3 = 61.60kJ and W3 = 49.80kJ<br />If the work transfer during the fourth process i.e. W4, is -25.80 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 36C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 32C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 30C (1 mark)<br />Q3 1.10kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number39NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-28.20 kJ and W1 = 75.80kJ<br />Process 2Q2 = 8.30kJ and W2 = -43.80kJ<br />Process 3Q3 = -12.50kJ and W3 = 38.10kJ<br />If the work transfer during the fourth process i.e. W4, is 2.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 30C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 38C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 38C (1 mark)<br />Q3 1.10kg of water enter a device as a saturated vapour at 0.26 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number40NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =68.70 kJ and W1 = -39.30kJ<br />Process 2Q2 = -71.10kJ and W2 = -0.70kJ<br />Process 3Q3 = -54.70kJ and W3 = -26.90kJ<br />If the work transfer during the fourth process i.e. W4, is -64.70 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 38C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 26C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 32C (1 mark)<br />Q3 0.60kg of water enter a device as a saturated vapour at 0.16 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number41NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-37.20 kJ and W1 = 74.20kJ<br />Process 2Q2 = -65.30kJ and W2 = 60.10kJ<br />Process 3Q3 = -6.40kJ and W3 = -6.20kJ<br />If the work transfer during the fourth process i.e. W4, is 37.10 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 24C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 24C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 36C (1 mark)<br />Q3 1.00kg of water enter a device as a saturated vapour at 0.24 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number42NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =46.30 kJ and W1 = 3.00kJ<br />Process 2Q2 = -12.90kJ and W2 = -16.50kJ<br />Process 3Q3 = 42.10kJ and W3 = -45.30kJ<br />If the work transfer during the fourth process i.e. W4, is 29.70 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 24C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 22C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 32C (1 mark)<br />Q3 1.10kg of water enter a device as a saturated vapour at 0.28 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number43NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-26.30 kJ and W1 = 10.50kJ<br />Process 2Q2 = 62.10kJ and W2 = -5.50kJ<br />Process 3Q3 = -40.00kJ and W3 = 46.90kJ<br />If the work transfer during the fourth process i.e. W4, is 52.10 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 20C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 32C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 30C (1 mark)<br />Q3 0.80kg of water enter a device as a saturated vapour at 0.28 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number44NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-25.20 kJ and W1 = 68.80kJ<br />Process 2Q2 = -34.70kJ and W2 = -77.70kJ<br />Process 3Q3 = 72.70kJ and W3 = -7.00kJ<br />If the work transfer during the fourth process i.e. W4, is 18.60 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 22C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 28C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 34C (1 mark)<br />Q3 0.60kg of water enter a device as a saturated vapour at 0.16 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number45NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =42.90 kJ and W1 = -50.90kJ<br />Process 2Q2 = 70.90kJ and W2 = 51.60kJ<br />Process 3Q3 = 31.70kJ and W3 = -39.60kJ<br />If the work transfer during the fourth process i.e. W4, is 79.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 30C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 24C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 32C (1 mark)<br />Q3 1.00kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number46NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-20.00 kJ and W1 = 35.30kJ<br />Process 2Q2 = -32.10kJ and W2 = -12.40kJ<br />Process 3Q3 = 2.20kJ and W3 = -23.20kJ<br />If the work transfer during the fourth process i.e. W4, is -29.60 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 34C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 36C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 38C (1 mark)<br />Q3 1.00kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number47NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-35.10 kJ and W1 = 5.90kJ<br />Process 2Q2 = 40.00kJ and W2 = -41.50kJ<br />Process 3Q3 = -5.50kJ and W3 = -45.40kJ<br />If the work transfer during the fourth process i.e. W4, is 34.60 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 20C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 28C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 28C (1 mark)<br />Q3 1.00kg of water enter a device as a saturated vapour at 0.18 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number48NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =70.10 kJ and W1 = -71.70kJ<br />Process 2Q2 = 3.60kJ and W2 = 62.10kJ<br />Process 3Q3 = -77.30kJ and W3 = 68.20kJ<br />If the work transfer during the fourth process i.e. W4, is 23.10 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 36C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 34C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 32C (1 mark)<br />Q3 1.00kg of water enter a device as a saturated vapour at 0.18 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number49NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =71.90 kJ and W1 = 31.90kJ<br />Process 2Q2 = -11.20kJ and W2 = 39.20kJ<br />Process 3Q3 = -22.60kJ and W3 = -10.70kJ<br />If the work transfer during the fourth process i.e. W4, is -21.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 38C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 20C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 24C (1 mark)<br />Q3 0.70kg of water enter a device as a saturated vapour at 0.24 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Fluid Mechanics and Thermodynamics.<br />Weekly Assessed Tutorial Sheet 4.<br />Student Number50NameHand out dateHand in date<br />Q1. A system executes a cycle which is made up of four processes. The heat and work transfers that take place in the first three processes are:<br />Process 1Q1 =-22.30 kJ and W1 = -55.90kJ<br />Process 2Q2 = 28.40kJ and W2 = -38.30kJ<br />Process 3Q3 = -24.10kJ and W3 = 5.30kJ<br />If the work transfer during the fourth process i.e. W4, is 26.50 kJ determine the corresponding heat transfer Q4 (kJ)(1 mark)<br />Q2. Using the Thermodynamic and Transport Properties of Fluids - <br />i) Find the specific enthalpy (kJ/kg) of saturated water in the liquid phase at 26C (1 mark)1<br />ii) Find the specific enthalpy (kJ/kg) of saturated water in the vapour phase at 30C (1 mark)<br />iii) Find the specific enthalpy change (kJ/kg) between saturated water vapour and saturated water liquid when it is at 38C (1 mark)<br />Q3 0.20kg of water enter a device as a saturated vapour at 0.20 Bar and, after undertaken a process, leaves as a saturated liquid. Calculate <br />i) the internal energy of the water as it enters the device (kJ), (1 mark)<br />ii) the internal energy of the water as it leaves the device (kJ) and(1 mark)<br />iii) the change in internal energy as a consequence of the process (kJ). (1 mark)<br />iv) Given the conditions noted in Q3 find the saturation temperature of the water (C) <br />(1 mark)<br />Credits<br />This resource was created by the University of Hertfordshire and released as an open educational resource through the Open Engineering Resources project of the HE Academy Engineering Subject Centre. The Open Engineering Resources project was funded by HEFCE and part of the JISC/HE Academy UKOER programme.<br />© University of Hertfordshire 2009<br />This work is licensed under a Creative Commons Attribution 2.0 License. <br />The name of the University of Hertfordshire, UH and the UH logo are the name and registered marks of the University of Hertfordshire. To the fullest extent permitted by law the University of Hertfordshire reserves all its rights in its name and marks which may not be used except with its written permission.<br />The JISC logo is licensed under the terms of the Creative Commons Attribution-Non-Commercial-No Derivative Works 2.0 UK: England & Wales Licence. All reproductions must comply with the terms of that licence.<br />The HEA logo is owned by the Higher Education Academy Limited may be freely distributed and copied for educational purposes only, provided that appropriate acknowledgement is given to the Higher Education Academy as the copyright holder and original publisher.<br />