As this is a Graduate Attribute Assessment remember Draw a diagram of your cycle clearly indicating the numbering used Clearly state all assumptions made and the reasons why they are acceptable Write down all the equations used in terms of the independent masses and pressures in the cycle Your reasoning and steps used to solve the question asked needs to be very clear Design a Co-generation Regenerative Rankine Power cycle with the following specifications: The steam flow through the boiler is "first 8 numbers of your student number" tons/hour The available turbine has an isentropic efficiency of 95% Your cycle must include a re-heater operating at 2000kPa, where "first 4 numbers in your student number" kW heat is added to the steam from a waste heat process. Your cycle must include a feed heater Your cycle must include a process heater; 15% of the steam flow in the cycle is extracted for process heating "last 2 numbers of your student number" % of the condenser heat is used elsewhere Your cycle needs to have a thermal efficiency of between 32% and 38%. You need to show the calculation of the mass flow, waste heat and condenser heat from your student number You need to choose sensible operating pressures and temperatures for your cycle. Explain (proper words, long sentences) the reasons for your choices You need to clearly state all the assumptions you make to complete your design Your assignment must include a block flow diagram of the process, the operating pressures of the different equipment must be indicated on the diagram, also the temperature of the steam leaving the boiler, the re-heater, and the condenser. You need to draw a T-s diagram of your process indicating the state of the steam at each point in the cycle You need to calculate the enthalpy and mass flow at each point in your cycle You need to calculate the work/heat input/output for each process in the cycle You need to calculate the thermal efficiency and the utilization factor for the cycle