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Thermal energy is recovered and distributed throughout the facility and thermal storage is added at the end of the loop to capture and store any remaining thermal energy Each of these three design scenarios have their advantages and disadvantages and can be used in different scenarios depending on the particular system requirements. The first design is the cheapest and easiest to implement because a thermal storage system is not required to be purchased or installed. However if this system is not designed perfectly, if the operating conditions of the waste heat source or the end uses changes, then the system’s energy transportation fluid will continue to be returned at a higher temperature and will not be able to absorb as much energy from the waste heat stream. This will lead to a decrease in effectiveness of the overall system and limit the amount of energy and cost savings that can be realized. The second energy transportation system design can become complex and requires a large thermal storage system which is adequately sized and capable of capturing and maintaining all the heat energy recovered until it is required elsewhere. By storing all of the heat energy directly as it comes from the waste heat source, the design allows for a non-constant end-use demand as well as a cycling waste heat source. However, this system requires a secondary loop to remove the energy from the storage system and transport it to the end uses and consequently will require more pumping horsepower and additional heat exchangers to operate. To effectively use the thermal storage tank, a separate system in the plant with an intermittent demand is needed. This system can then periodically remove energy and “drain” the tank while using the energy in a productive manner. The third system design becomes a mixture of the pros and cons of the two previous systems. Similar to the second system design discussed, this design requires a separate secondary loop to transport the energy recovered by the storage tank. However the size requirements for this loop, 95PDF Image | TUDY OF LOW-GRADE WASTE HEAT RECOVERY
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