This work investigated the potential for waste heat recovery from a cement factory using thermoelectric generation (TEG) technology. Several TEGs were placed on a secondary coaxial shell separated from the kiln shell by an air gap. The performance of the system was tested and evaluated experimentally. Two cooling methods, active water and forced air, were considered. A forced closed-loop water cooling system with a heat exchanger was considered for the active-water cooling method. A heat exchanger was inserted before the water tank to improve cooling efficiency by reducing the inlet temperature of the cooling water tank, in contrast to forced-air cooling, in which a heatsink was used. The obtained results indicated that the closed-loop water-cooled system equipped with a radiator, i.e., active water, has the highest conversion efficiency. The maximum absorbed heat for the forced-air and active-water cooling systems were 265.03 and 262.95 W, respectively. The active-water cooling method improves the power of TEG by 4.4% in comparison with forced-air cooling, while the payback periods for the proposed active-water and forced-air cooling systems are approximately 16 and 9 months, respectively.
Internal Combustion Engines (ICE) are one of the most important engineering applications that operate based on the conversion of chemical energy from fuel into thermal energy as a result of direct combustion. The obtained thermal energy is then turned into kinetic energy to derive various means of transportation, such as marine, air, and land vehicles. The efficiency of ICE today is considered in the range of the intermediate level, and various improvements are being made to enhance its efficiency. The turbocharger can support the ICE, which works by increasing the pressure in the engine to enhance its efficiency. In this investigation, the effect of the turbocharger pressure on ICE performance was studied in the range of 2 to 10 bar. It was found that the increase in turbocharger pressure enhanced the pressure inside the engine, positively affecting engine efficiency indicators. Therefore, the increase in turbocharger pressure is directly proportional to the ICE efficiency. Doi: 10.28991/ESJ-2022-06-03-04 Full Text: PDF
In this work, a test room was built in Baghdad city, with selective dimensions, while the solar chimneys (SC) where designed with aspect ratio (ar) bigger than 12 and setup to the oriented wall to the south. Collector of SC consist of paraffin wax as a phase change material (PCM) and supported by copper foam matrix (CFM), to enhance the combined of thermal energy storage material box (TESMB). Double transparent acrylic sheets covered the collector from outside. TESB supported by array of evacuated tubular collector with thermosyphon to sincere heat storage in the TESB. Results of experimental work that achieved in 25 January and 26 February refer to effectiveness using TESM in closed loop SC in day time and its effect cover the night time also. The heating system of test room is arrived to the biggest room temperature after sun set, at that moment the difference between indoor and outdoor approximately 15 o C, and room temperature value still bigger after five hours from sun-set with a different in temperature by approximately 8 o C. Numerical solution done by employing CFD with solution the PDE's that present continuity, momentum, energy equations, by using the FVM with algebraic forms of turbulent viscosity and diffusion coefficient and employing turbulent standard model. The comparison between numerical and experimental results indicated that the heat transfer inside test room is dominate by condition, also results shows acceptable convergence in velocity and temperature profile, while the experimental results for air flow inside SC gap appears the turbulent behavior in most duration time. Keyword: solar chimney (SC), phase change material (PCM), foam matrix(FM)..
INTRODUCTIONonventional heating room or building, by solar was used the direct glazed flat plate collector, or by use the trombe wall. To enhancement the heat control and to keep the room temperature in stable value, beside storage the heat and release it after sun-set, so many mechanisms was used to storage the heat and make self-control temperature. So that don by used (TSM). Burek and Habeb [1] studied experimentally the heat and mass flow in thermosyphoning air heaters, such as solar chimneys and Trombe-Walls. The test rig comprised a vertical open-ended channel with closed sides. Results showed that the mass flow rate through the channel was a function of both heat input and depth of the channel, while the thermal efficiency of the system was represent the function of heat input only. Wei et.al [2] proposed a theoretical model used PCM for energy storage in a lightweight passive solar room. The analytical results showed that the optimal phase change temperature depends on the average C
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