廠務季刊  Facility Journal 2023


              再生廢碳_綠色相伴
              Regenerated carbon_Green consumerism

                                                                                   文│蔡培裕│台南廠務五部




                                                      摘要




                  摘要                                  本研究使用回收系統之廢碳製成再生碳並以新碳為比照組進行
                                                      H 2 O 2 去除率比對，以 AWR 及含高濃度 H 2 O 2 的 CWR 系統進行
                  1. 前言
                                                      測試，紀錄 H 2 O 2 去除率變化及活性碳粒徑、硬度及碘值等相關
                  2. 文獻探討                             指標的差異性。結果顯示，再生碳粒徑與硬度無明顯影響，碘值
                                                      則隨使用時間增加而降低與新碳比對效果一致，由 H 2 O 2 去除率
                    2.1  活性碳再生技術
                                                      上可看出再生碳及新碳下降趨勢相同，其結果顯示可取代新碳使
                    2.2  活性碳熱處理
                                                      用。未來若成功導入台積全廠區使用，預期每年廢棄物減量可達
                    2.3  活性碳品質指標                      約 5,000 噸，創造逾 3 千萬元的效益及減少碳排達 9 千噸。

                  3. 實驗方法                             關鍵詞 : 活性碳、再生碳、廢棄物減量
                     3.1  實驗架構與流程
                                                      In the study, the waste carbon of reclaim was used to make
                    3.2  回收系統測試                       regenerated carbon, and compared the removal rate of
                                                      hydrogen with new carbon. The AWR and CWR systems
                    3.3  水質檢測手法
                                                      containing high concentration hydrogen peroxide were
                    3.4  活性碳採碳檢測                      tested to record the change of hydrogen peroxide removal
                                                      rate and the particle size, hardness and Differences of iodine
                  4. 結果與分析
                                                      value-related indicators. The results suggested that Particle
                     4.1  新碳與再生碳之雙氧水                  size distribution and Hardness of activated carbon can meet
                        去除效率分析                        the new carbon value. The Iodine number decrease with the
                                                      increase of time. On the other hand, the reduction trend of
                    4.2  新碳與再生碳之粒徑分析
                                                      regenerated carbon and new carbon had a similar variation.
                    4.3  新碳與再生碳之硬度分析                  In conclusion, new carbon was substitute for regenerated
                                                      carbon, if it is successfully introduced in to the TSMC in
                    4.4  新碳與再生碳之碘值分析
                                                      the future that the annual waste reduction can reach 5,000
                    4.5  再生碳使用效益                      tons, creating more than 30 million dollar in benefits and
                                                      reducing carbon emissions by 9,000 tons per year.
                  5. 結論
                                                      Keywords : Active Carbon, Regenerated Carbon,
                  參考文獻                                Waste Reduction
                  作者介紹
























              ���