24 research outputs found
Effects of Adding of Fentanyl or Morphine to Bupivacaine for the Epidural Anesthesia in the Cesarean Section
A Study on the Best Positive End - expiratory Pressure of Dogs in Acute Respiratory Failure Induced by Oleic Acid
The Effects of the Small Doses of Nondepolarzing Muscle Relaxants Administered Just Prior to Succinylcholine on Intragastric and Intraocular Pressures
Statistical Methods in the Articles of the Journal of the Korean Society of Anesthesiologists from 1981 to 1990
Changes in Pulmanary Gas Exchange during General Anesthesia for Laparoscopic Cholecystectomy
A Case Report of the Cancer Pain Treatment by the Percutaneous Radiofrequency Posterior Root Rhizotomy
The Effect of Percutaneous Epidural Stimulation of the Spinal Cord for Brachial Plexopathy
Analysis of Hydrothermal Solid Fuel Characteristics Using Waste Wood and Verification of Scalability through a Pilot Plant
Increases in energy demand and waste are a major cause of natural resource depletion and environmental pollution, and technology capable of processing waste to convert it into energy is required to mitigate this issue. Hydrothermal carbonization (HTC) is an example of this technology that can convert waste into energy, and various studies have been conducted using it for fuel conversion. This study focused on the production of a solid fuel equivalent to coal for power generation through HTC processes using waste wood. Unlike previous work, which consists only of laboratory-scale HTC experiments, we confirmed scalability through pilot-scale HTC experiments. Overall, it was possible to convert waste wood into HTC solid fuel with a calorific value of over 27,000 kJ/kg through the pilot plant HTC process. Additionally, heavy metal and hazardous substance analyses proved that it can be used as a biosolid fuel