Abstract:
utilization of released heat energy from the condensation of liquid smoke has not
been widely applied. Recently, the heat generated from the process was discharged and
circulated into water as a cooling media. This research aimed to design and test a
functional of liquid unit integrated with a dryer cabinet. The study consisted of three steps
that include design (structural and functional design), manufacturing, and testing a
functional of results designed. This research and development produced liquid smoke
integrated with the dryer cabinet. This machine consisted of four main components
including tube of pirolisator, heat exchanger, condenser and dryer cabinet. Based on the
functional test, this machine had been able to produce liquid smoke ranged from 2300 to
3182 ml for 5 hours burning process of coconut shells. The first container was a container
that received much more liquid smoke compared with the second container 2. This
research revealed that condensation process occurs more frequently in the heat
exchanger pipe.