[1]經濟部統計處。工廠校正及營運調查報告。
https://www.moea.gov.tw/Mns/dos/content/ContentLink.aspx?menu_id=9427
[2]行政院環境保護署事業廢棄物申報及管理資訊系統。
https://waste.epa.gov.tw/RWD/Statistics/?page=Year1
[3]台伸行興業股份有限公司。切削油的基礎。
https://www.taishen.com.tw/knowledge/cut_oil01
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[6]Malika Ouhadou, Aumeur El Amrani, Choukri Messaoudi, Said Ziani, 2019, “Experimental investigation on thermal performances of SMD LEDs light bar: Junction-to-case thermal resistance and junction temperature estimation”, Optik, Vol.182, pp. 580-586
[7]P. Fredes, U. Raff, E. Gramsch, J. Pascal, J. Cuenca, 2019, “Junction temperature control of UV-C LEDs based on a thermoelectric cooler device”, Microelectronics Reliability, Vol.98, pp. 24-30
[8]Samir Ladjouzi, Said Grouni, 2020, “PID controller parameters adjustment using a single memory neuron”, Journal of the Franklin Institute, Vol.357, Issue9, pp. 5143-5172
[9]游季芸, 2019, “批量生產LED在各種電流驅動下的接面溫度預測”, 國立虎尾科技大學電子工程系碩士論文。[10]Dongjing Liu, Haiying Yang, Ping Yang, 2014, “Experimental and numerical approach on junction temperature of high-power LED”, Microlectronics Reliability, Vol.54,
Issue 5, pp. 926-931
[11]Muna E. Raypah, Dheepan M.K., Mutharasu Devarajan, Fauziah Sulaiman, 2016, “Investigation on thermal characterization of low power SMD LED mounted on different substrate packages”, Applied Thermal Engineering, Vol.101, pp. 19-29
[12]Dongjun Lee, Hyunjin Choi, Sihun Jeong, Chang Hwan Jeon, Daehoon Lee, Jiseok Lin, Chan Byon, Jungwook Choi, 2018, “A study on the measurement and prediction of LED junction temperature”, International Journal of Heat and Mass Transfer, Vol.127, pp. 1243-1252
[13]Keng Chen, Nadarajah Narendran, 2013, “Estimating the average junction temperature of AlGaInP LED arrays by spectral analysis”, Microelectronics Reliability, Vol.53,
Issue 5, pp. 701-705
[14]J. Deluhery, N. Rajagopalan, 2005, “A turbidimetric method for the rapid evaluation of MWF emulsion stability”, Colloids and Surfaces A: Physicochemical and Engineering Aspects, Vol.256, Issues 2-3, pp. 145-149
[15]Benjamin Glasse, Cristhiane Assenhaimer, Roberto Guardani, Udo Fritsching, 2014, “Turbidimetry for the stability evaluation of emulsions used in machining industry”, The Canadian Journal of Chemical Engineering, pp. 324-329
[16]Benjamin Glasse, Udo Fritsching, Thomas Koch, Jose L. De Paiva, Roberto Guardani, 2012, “Turbidimetric Spectroscopy for the Evaluation of Metalworking Fluids Stability”, Tribology Transactions, Vol.55, Issue 2
[17]https://product.tdk.com/system/files/dam/doc/product/sensor/ntc/chip-ntc-thermistor/catalog/tpd_commercial_ntc-thermistor_ntcg_en.pdf
[18]黃鼎智, 2019, “利用鹽析法破除廢棄切削液之乳化效果以降低廢水硼含量之研究”, 國立高雄科技大學環境與安全衛生工程系碩士論文。[19]Sagheer A. Onaizi, 2022, “Effect of salinity on the characteristics, pH-triggered demulsification and rheology of crude oil/water nanoemulsions”, Separation and Purification Technology, Vol.281, 119956
[20]Dílson C. Maia Filho, João B.V.S. Ramalho, Luciana S. Spinelli, Elizabete F. Lucas, 2012, “Aging of water-in-crude oil emulsions: Effect on water content, droplet size distribution, dynamic viscosity and stability”, Colloids and Surfaces A: Physicochemical and Engineering Aspects, Vol.396, pp. 208-212
[21]http://www.siti.com.tw/product/spec/LED/CNSP-DD312-PRE.001.pdf
[22]https://www.mouser.tw/datasheet/2/256/MAX1968-MAX1969-1515359.pdf