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Newsletter & Taiwan Research Highlight | December 2021 | Science and Technology Policy 「Taiwan's New Era of Quantum Tech...
30/12/2021
Newsletter Archive-Taiwan Research Highlight

Newsletter & Taiwan Research Highlight | December 2021 |
Science and Technology Policy 「Taiwan's New Era of Quantum Technology」

1. Science and Technology Policy
「Taiwan's New Era of Quantum Technology」
Interview with Luo Meng-Fan, Director of the Department of Natural Science and Sustainable Development, Ministry of Science and Technology and Gwo Shangjr, Director of the Research Center for Applied Science, Academia Sinica

2. Exclusive Interview
Interview with Min-Hsiu Hsieh Hon Hai Research Institute's Deployment of Quantum Computing

3. Outstanding Laboratory
Center for Quantum Technology of the National Tsinghua University Development Core Quantum Technologies in Taiwan

4. Scientific Research Trend
The Quantum Technology of the Future

5. Research Highlights
The Development of Quantum Technology in Taiwan

GASE Newsletter (12, 2021)
http://trh.gase.most.ntnu.edu.tw/en/epaper/2021/12
Newsletter Archive
http://trh.gase.most.ntnu.edu.tw/en/newsletter

台灣研究亮點 GASE電子報 2021年12月號重點內容如下

1. 科技政策
「臺灣量子科技新世代」,專訪科技部自然科學及永續研究發展司羅夢凡司長、中央研究院應用科學研究中心果尚志主任

2. 人物專訪
謝明修專訪,鴻海研究院 布局量子運算

3. 亮點研究室
清大前瞻亮子科研中心 發展本土量子核心技術

4. 科研趨勢
量子科技如何敲開未來世界之門

5. 研究亮點
臺灣量子科技的發展

詳細內容請點擊下方連結:
GASE電子報12月號
https://trh.gase.most.ntnu.edu.tw/tw/epaper/2021/12
歷期電子報
https://trh.gase.most.ntnu.edu.tw/tw/newsletter

Reports on research focus and innovative development of universities in Taiwan

[協助徵才廣宣]目前台灣政府積極推動大專院校的英語教學,國立中興大學生命科學院榮獲教育部通過全國唯一生命科學院的EMI計畫(English as a Medium of Instruction)。生命科學系是本院唯一的大學部學系,根據教育部...
30/12/2021
新聘教師附件 - Google Drive

[協助徵才廣宣]
目前台灣政府積極推動大專院校的英語教學,國立中興大學生命科學院榮獲教育部通過全國唯一生命科學院的EMI計畫(English as a Medium of Instruction)。生命科學系是本院唯一的大學部學系,根據教育部EMI計畫的規定,目前積極招募直接從國外返台服務的生命科學領域專家,希望招募有意來台或返台的優秀學者。
附件是生命科學系的招募廣告,截止日已推延至明(2022)年2月初,歡迎有志學人回台服務!

📍Registration URL
https://forms.gle/KUPfrWf3K9bLL9Qx5
📍Download forms
https://drive.google.com/drive/u/0/folders/1j8PfqjY2Pm5LrUlH_Rk-63YQ6n6zLeiO

Contact Information:
Ms. Hsiu-Ling Wang (王秀玲小姐)
Tel: +886-4-22840416 ext. 302
Fax: +886-4-22874740
Email: [email protected]

29/12/2021
科技魅癮

📣科技部《科技魅癮》110年第4季季刊📣
想知道來自產官學研的菁英如何思考全球熱議話題? 我們提供最新、最深入的剖析,超前部署您的視野!
此外,科技如何形塑社會主流價值? 社會中的文化、政治與經濟又是如何影響科技發展? 想要了解科技與社會如何共舞嗎? 讓我們從多元視角深入探索,激發您的新思維。

No4. 特別企劃: 飛向宇宙,邁入太空新時代
客座總編輯 中興大學林俊良教授: 「要在太空長程競賽中勝出,教育是非常重要的一環。」

點擊連結一起來掌握最新資訊!👇

2021年由科技部《科技發展》月刊華麗轉身,以《科技魅癮》數位季刊之姿,每期精選1則國際關注的科技議題,如精準健康、5G應用、腦科學、太空、低軌道衛星等議題等話題,邀請國內科學家,採訪多位相關領域的科研菁英,.....

[科技部新聞稿]先進精準定位的利器毫米尺寸矽光子光纖陀螺儀驅動晶片日期:110年12月22日發稿單位:工程技術研究發展司聯絡人:黃士育 副研究員電話:02-2737-7374Email:syuhuang@most.gov.tw     近年...
22/12/2021

[科技部新聞稿]

先進精準定位的利器
毫米尺寸矽光子光纖陀螺儀驅動晶片

日期:110年12月22日
發稿單位:工程技術研究發展司
聯絡人:黃士育 副研究員
電話:02-2737-7374
Email:[email protected]

近年來,台灣半導體晶圓廠製程技術具全球領先地位,整體半導體製造產業鏈完整而且成熟,對於發展各種相關的技術與其應用已有相當成果,而過去十年來,矽光子(Si photonics)製程技術的崛起,以半導體晶圓廠的製程模式,來製作光電子與電路的積體化,可使多功能的光電子應用模組,可積體化於一微小型晶片上,這些技術過去只能在大型載具上使用,如光學桌,而矽光子另外一主要項優勢是,在半導體晶圓廠製程的大量生產下,每晶片所分擔成本低,因此傳統上超高頻寬、高解析度、低耗能與不受電磁干擾的光學訊號處理,可於普遍的民生用品上。

有鑑於此,科技部從107年開始推動積極推動「矽光子及積體電路專案計畫」,本次矽光子光纖陀螺儀成果即是在此專案的支持下,由國立中山大學光電系邱逸仁教授團隊所開發,利用現世界上所發展的新穎科技,即矽光子積體光電子(Si photonics),設計與採用多個創新矽光子整合技術,將晶片面積大幅度降低,並以半導體晶圓廠製程技術,透過產學研上合作的模式,開發「微型化矽光子陀螺儀驅動晶片」;所開發矽光子光纖陀螺儀模組,已突破出戰術級規格的陀螺特性(Bias instability = 0.158 deg/hr),將過去繁複的零件組合工程,以半導體製程方式整合於毫米(mm)級尺寸上的晶圓上,不僅可量產來分擔成本,預估可將成本降低於現今光纖陀螺儀成本的三分之一以下。值得令人興奮的是,由於複雜的光訊息處理可濃縮於毫米級以下,可保有原多種優勢,又可鍵入多種感測與控制功能,將來可應用民生用品,如無人載具、自駕車和空拍機等平台穩定,而對於生醫檢測、自動駕駛車輛、智慧機器人、航空定位系統、立方衛星等微型化導控有極大的應用市場。

光纖陀螺儀主要應用於中高端特性導航系統上的遠端感測模組件,如航太、軍事、水下與無人載具等應用,對於導航上是一不可或缺的零組件;相對其他種陀螺儀比較而言,如雷射與半球型共振子陀螺儀,所感應精度與穩定度最高,因構造需精密加工,所需單價極高,而另一極端,以微機電方式製作因可以半導體製程製作,成本最低,也因機械式方式運作原理,特性屬於低端;光纖陀螺儀特性所涵蓋的範圍最大,因為零組件製作方式,可由中端到高端,可允許研發或製作上的精進範圍極大,對於未來延伸應用或可塑造可能性大,應用於他種產業上,深具潛力。然而傳統的光纖陀螺儀模組主要利用多個離散光電元件組成,所需組裝工程繁複,成本也因此不易降低;因此,以矽光子實現光纖陀螺儀的製作,便具有突破性意義。

科技部「矽光子及積體電路專案計畫」已邁入第四年,國立中山大學光電系矽光子團隊由邱逸仁教授擔任總計畫主持人並負責矽光子陀螺儀上寬頻譜光源整合技術開發,也延攬光纖陀螺儀專家劉人仰博士,與矽光子專家洪勇智教授擔任共同計畫主持人,與多個產業界合作開發,發展陀螺儀封裝技術與微型化光纖環,同時邀請中山電機系王朝欽教授發展閉迴路電子晶片。矽光子陀螺晶片的開發則由系上洪勇智、于欽平、林宗賢教授共同發展;低損耗光波導線圈的研究由李晁逵教授及王俊達教授主導;系統量測與降雜訊技術開發則由魏嘉建教授負責;在過去三年中,利用團隊在光電子的專業,已成功驗證矽光子晶片的可行性,也開發了相關的技術應用領域,部分研究成果已發表於相關國內外專利、期刊及知名國際研討會。

研究成果聯絡人
邱逸仁 教授
國立中山學光電工程學系
電話:07-5252000-4460
Email:[email protected]

[科技部新聞稿]

先進精準定位的利器
毫米尺寸矽光子光纖陀螺儀驅動晶片

日期:110年12月22日
發稿單位:工程技術研究發展司
聯絡人:黃士育 副研究員
電話:02-2737-7374
Email:[email protected]

近年來,台灣半導體晶圓廠製程技術具全球領先地位,整體半導體製造產業鏈完整而且成熟,對於發展各種相關的技術與其應用已有相當成果,而過去十年來,矽光子(Si photonics)製程技術的崛起,以半導體晶圓廠的製程模式,來製作光電子與電路的積體化,可使多功能的光電子應用模組,可積體化於一微小型晶片上,這些技術過去只能在大型載具上使用,如光學桌,而矽光子另外一主要項優勢是,在半導體晶圓廠製程的大量生產下,每晶片所分擔成本低,因此傳統上超高頻寬、高解析度、低耗能與不受電磁干擾的光學訊號處理,可於普遍的民生用品上。

有鑑於此,科技部從107年開始推動積極推動「矽光子及積體電路專案計畫」,本次矽光子光纖陀螺儀成果即是在此專案的支持下,由國立中山大學光電系邱逸仁教授團隊所開發,利用現世界上所發展的新穎科技,即矽光子積體光電子(Si photonics),設計與採用多個創新矽光子整合技術,將晶片面積大幅度降低,並以半導體晶圓廠製程技術,透過產學研上合作的模式,開發「微型化矽光子陀螺儀驅動晶片」;所開發矽光子光纖陀螺儀模組,已突破出戰術級規格的陀螺特性(Bias instability = 0.158 deg/hr),將過去繁複的零件組合工程,以半導體製程方式整合於毫米(mm)級尺寸上的晶圓上,不僅可量產來分擔成本,預估可將成本降低於現今光纖陀螺儀成本的三分之一以下。值得令人興奮的是,由於複雜的光訊息處理可濃縮於毫米級以下,可保有原多種優勢,又可鍵入多種感測與控制功能,將來可應用民生用品,如無人載具、自駕車和空拍機等平台穩定,而對於生醫檢測、自動駕駛車輛、智慧機器人、航空定位系統、立方衛星等微型化導控有極大的應用市場。

光纖陀螺儀主要應用於中高端特性導航系統上的遠端感測模組件,如航太、軍事、水下與無人載具等應用,對於導航上是一不可或缺的零組件;相對其他種陀螺儀比較而言,如雷射與半球型共振子陀螺儀,所感應精度與穩定度最高,因構造需精密加工,所需單價極高,而另一極端,以微機電方式製作因可以半導體製程製作,成本最低,也因機械式方式運作原理,特性屬於低端;光纖陀螺儀特性所涵蓋的範圍最大,因為零組件製作方式,可由中端到高端,可允許研發或製作上的精進範圍極大,對於未來延伸應用或可塑造可能性大,應用於他種產業上,深具潛力。然而傳統的光纖陀螺儀模組主要利用多個離散光電元件組成,所需組裝工程繁複,成本也因此不易降低;因此,以矽光子實現光纖陀螺儀的製作,便具有突破性意義。

科技部「矽光子及積體電路專案計畫」已邁入第四年,國立中山大學光電系矽光子團隊由邱逸仁教授擔任總計畫主持人並負責矽光子陀螺儀上寬頻譜光源整合技術開發,也延攬光纖陀螺儀專家劉人仰博士,與矽光子專家洪勇智教授擔任共同計畫主持人,與多個產業界合作開發,發展陀螺儀封裝技術與微型化光纖環,同時邀請中山電機系王朝欽教授發展閉迴路電子晶片。矽光子陀螺晶片的開發則由系上洪勇智、于欽平、林宗賢教授共同發展;低損耗光波導線圈的研究由李晁逵教授及王俊達教授主導;系統量測與降雜訊技術開發則由魏嘉建教授負責;在過去三年中,利用團隊在光電子的專業,已成功驗證矽光子晶片的可行性,也開發了相關的技術應用領域,部分研究成果已發表於相關國內外專利、期刊及知名國際研討會。

研究成果聯絡人
邱逸仁 教授
國立中山學光電工程學系
電話:07-5252000-4460
Email:[email protected]

22/12/2021

[Press Release]
December 22, 2021

New solution of advanced positioning technology- millimeter-size Si photonics optical fiber gyroscope chip

Taiwan has been known as the leader in the global industrial production line of semiconductor processing, where its mature supply chain in semiconductor manufacture industry has already realized the different levels of relevant technologies and applications. In the last decade, the invention of Si photonics has led to the advancement of photonics integration circuit by using semiconductor manufacture production line, allowing the advantages of multi-functional and cost-effective optical signal processing techniques, such as broadband, high resolution, low power consumption and low EM interference, to be built inside a small chip.

In the light of such technology trend, MOST of Taiwan has promoted the special topics project, named as Si photonics project, in 2018 in order to fulfill the future technology development in the future. Si photonic fiber gyroscope is one of the funded projects, which was led by Prof. Yi-jen Chiu in Department of Photonics, National Sun Yat-sen University. The team uses several new designs of optical and electrical circuits in silicon photonic integration chip, not only reducing the overall size of chip but also setting up a new level of angular velocity sensing capability. A tactical level of sensing capability (Bias instability = 0.158 deg/hr) has been demonstrated through employing such silicon photonic gyro chip. The integration of optical elements in chip has approximately decreased the cost by one third of the conventional interferometer fiber optical gyroscope. To be noted that, the design of Si photonic gyro chip could not only level up the gyro function but also bring new and multiple functions in a chip. For example, more functions except the conventional gyro elements are able to install in an mm-scale chip, enabling sensing and configuring capability. The unmanned vehicle and aerial camera with such light sensing tool can be made with stabilizer. In addition, the Si photonics gyroscope also has lots of potential for consumer purposes, such as bio engineering, autonomous cars, robot, navigation, and CubeSat.

Interferometric fiber optical gyroscope (IFOG) is one of indispensable components for sensing angular velocity in medium- and high- end navigation systems, such as aerospace, military, underwater and unmanned vehicles. In comparison to other types of gyroscope. Ring laser gyroscope (RLG) and hemispherical resonant gyroscope (HRG) are the most stable and highest resolution one up to the records now, however, the complicated structure need delicate assembly engineering, resulting in high cost. On the other hand, microelectromechanical system (MEMS) gyroscope fabricated in semiconductor foundry can be adapted to mass production line, thus leading to lowest cost per piece. Nevertheless, the mechanical properties render it to be low precision from up-to-date technologies. In the view point of gyroscope performance, IFOG could vary from high- end modules to medium- end ones, depending on the design and its related assembly technologies. With the promotion of Si photonic technologies, photonics integration offers an excellent solution for future gyroscope and related technologies.

The team of Si photonic gyroscope in the Department of Photonics at NSYSU has been funded by MOST for 4 years. In this project, the principle investigator (PI) was Professor Yi-Jen Chiu, the former Chair of the Department of Photonics, who was also responsible for developing broadband light source of gyroscope. The recruited co-host PI, Dr. Jen-Yang Liu, an expert in fiber-optic gyroscope. Prof. Yung-Jr Hung is also a co-host PI, a Si photonic expert. Base on Si photonic technology, several industrial partners have been tied within the project, forming a collaboration link. To develop gyroscope package and its driving circuit, Professor Chua-Chin Wang of the Department of Electrical Engineering, NSYSU, an integrated circuit (IC) expert, was also invited to develop closed-loop electronic circuit chips. The silicon photonic gyroscopic chips were jointly designed, developed, and characterized by professors Chin-Ping Yu, Tsung-Hsien Lin, Yung-Jr Hung, and Chun-Ta Wang of the Department of Photonics; the research on low-loss optical waveguide coils was led by Professor Chao-Kuei Lee and Professor Chun-Ta Wang; To improve the signal-to-noise ratio in optical signal processing, the noise-reduction technology in optical waveguide was led by Professor Chia-Chien Wei. Upon the past three year, excellent research work and Si photonic IFOG submodule have been attained, including the patents, top international conference and journal paper publication.

Media Contact:
Professor, Yi-Jen Chiu
Department of Photonics ,National Sun Yat-sen University (NSYSU),
+886-7-5252000 #4460
yjchiu[email protected]

Program Manager, Shih Yu Huang
Department of Engineering and Technologies, Ministry of Science and Technology
+886-2-27377374
[email protected]

國立中興大學人工智慧與資料科學碩士在職學位學程誠徵專任助理教授(含)以上1名(2022年8月1日起聘)一、應徵資格  1.學歷:具國內外大學資訊、電機、數學和統計相關領域博士學位  2.專長領域:人工智慧、資訊安全(具資料處理安全專長尤佳)...
17/12/2021
最新消息 | 人工智慧與資料科學碩士在職學位學程

國立中興大學人工智慧與資料科學碩士在職學位學程誠徵專任助理教授(含)以上1名(2022年8月1日起聘)

一、應徵資格
1.學歷:具國內外大學資訊、電機、數學和統計相關領域博士學位
2.專長領域:人工智慧、資訊安全(具資料處理安全專長尤佳)
3.資訊科技產業相關經驗兩年(含)以上
二、詳細申請資料請點選連結:
http://ai-datasci.nchu.edu.tw/news_detail.php?Key=20
三、收件截止日期:2021年12月31日 (隨到隨審)
四、聯絡資訊:
E-mail:[email protected]

請輸入此頁面的簡述…

📣《台灣研究之北美現況:青年學者論壇》,即日起開放報名!【活動名稱】台灣研究之北美現況:青年學者論壇http://www.hss.ntu.edu.tw/news_d.aspx?no=5&d=1007【活動時間】美中時間 2021年12月12...
07/12/2021
科技部人文社會科學研究中心

📣《台灣研究之北美現況:青年學者論壇》,即日起開放報名!

【活動名稱】台灣研究之北美現況:青年學者論壇
http://www.hss.ntu.edu.tw/news_d.aspx?no=5&d=1007

【活動時間】
美中時間 2021年12月12日(日)8:00 pm-10:00 pm
台灣時間 2021年12月13日(一)10:00 am- 12:00pm

【活動地點】
實體舉行並開放報名者以線上方式參加
報名成功後,會再以E-Mail方式寄送線上會議室連結

【報名網址】
https://reurl.cc/emYQoM

【活動簡介】
2010年代見證了新一波台灣研究興起,有論者稱台灣研究的「新黃金時代」來臨。台灣研究現有獨立的英文學術期刊,在歐洲以及北美都有活躍運作的學會。而關注台灣的課程,則有53間位於加拿大與美國的大學,開設共112門課程。站在二十一世紀的第三個十年,關心台灣的研究者不僅遍佈全球,現有基礎更可以再次開創新局。

本活動邀請北美台灣研究學會之現任會長張竹芩博士,以及兩位分別來自人文與社會學科,目前任教於美國學術界的優秀學者——維吉尼亞聯邦大學社會系高穎超老師,以及密蘇里大學歷史系楊孟軒老師——就個人學術經驗,對台灣研究之北美現況提出觀察。

【注意事項】
1. 本活動現場無法核發「公務人員研習時數」或「研習證明」。
2. 活動主辦單位若更改時間和地點,將以E-Mail通知,請參加者詳實提供通訊方式和真實姓名以利聯繫。
3. 請提前五分鐘登入會議室。

【聯絡人資訊】
許菁芳博士
E-mail: [email protected]

【活動地點】 實體舉行並開放報名者以線上方式參加 報名成功後,會再以E-Mail方式寄送線上會議室連結

🔔「 2030跨世代年輕學者方案」海外說明會 就在今晚8點!🔔關心台灣學術發展、有意返台貢獻所學的海外學人,由駐波士頓科技組及BTBA聯合舉辦的「2030跨世代年輕學者方案海外說明會」是您不可錯過的活動!記得事先下載會議軟體「U」線上參與喔...
06/12/2021

🔔「 2030跨世代年輕學者方案」海外說明會 就在今晚8點!🔔

關心台灣學術發展、有意返台貢獻所學的海外學人,由駐波士頓科技組及BTBA聯合舉辦的「2030跨世代年輕學者方案海外說明會」是您不可錯過的活動!記得事先下載會議軟體「U」線上參與喔!!

📍時間
美中時間2021/12/6,晚上8:00-9:00
📍報名連結🔗
https://docs.google.com/.../1FAIpQLSewJ.../viewform
📍地點: Online event via U
(請先下載線上會議軟體「U」 https://u.cyberlink.com/download)
📍主講單位:
- 科技部綜合規劃司 彭麗春 司長
- 科技部綜合規劃司 林孟青 專員

🔔🔔🔔「2030跨世代年輕學者方案」說明會來了!!

👉 想了解科技部有提供什麼學術資源嗎?
👉 想了解返台任教後有什麼可以申請的經費資源嗎?
👉 想了解申請2030方案的經驗心得嗎?

關心台灣學術發展、有意返台貢獻所學的海外學人,由駐波士頓科技組及BTBA聯合舉辦的「2030跨世代年輕學者方案海外說明會」是您不可錯過的活動!
本活動邀請到科技部綜規司長官為大家簡介方案及解答相關問題,以及2030獲獎學人前來分享他們申請的寶貴經驗及心得,並提供問答時間,解答申請者的問題。事不宜遲趕快手刀報名參加!🏃‍♀️🏃🏃‍♂️

📍時間
美中時間2021/12/6,晚上8:00-9:00

📍報名連結🔗
https://docs.google.com/forms/d/e/1FAIpQLSewJ_2u2kunzCeMV-lGopXhsWZVO40O1edmJ_zaLeyYI1vO-w/viewform

📍地點: Online event via U
(請先下載線上會議軟體「U」 https://u.cyberlink.com/download)

📍主講單位:
- 科技部綜合規劃司 彭麗春 司長
- 科技部綜合規劃司 林孟青 專員

[科技部新聞稿]獨步全球的先進結晶技術  回收高科技產業廢水中重金屬日期:110年12月1日發稿單位:工程技術研究發展司聯絡人:李玓助理研究員電話:2737-7049E-mail:pdl@most.gov.tw     循環經濟為政府推動5...
01/12/2021

[科技部新聞稿]

獨步全球的先進結晶技術 回收高科技產業廢水中重金屬

日期:110年12月1日
發稿單位:工程技術研究發展司
聯絡人:李玓助理研究員
電話:2737-7049
E-mail:[email protected]

循環經濟為政府推動5+2產業創新重點項目,依據循環經濟的發展模式,推動相關產業發展,開發高值產品的綠色製程。在此前提下,科技部提供研究經費,由國立中興大學環境工程系盧明俊特聘教授研發獨步全球的先進結晶技術。該技術主要應用於回收廢水中的重金屬,也可擴及水中氮、磷回收,更可將煙囪排放之二氧化碳經吸收後,再以先進結晶方式轉換成碳酸鈣,有助於減緩地球暖化,將原本是處理後所產生的廢棄物,轉化成可再利用的資源,堪稱循環經濟的實踐家。

傳統上處理含重金屬廢水的結晶技術所產生之結晶粒純度低,其產物回收再利用率十分有限,因此,為解決現實問題並落實產物回收再利用,盧教授研發先進結晶技術獲得高純度之結晶物,除可解決處理大量含重金屬廢水,以及高含水率的廢棄污泥問題外,並可落實廢棄物回收再利用,將原本對環境產生毒害之重金屬,以先進結晶的方式回收,能有效保護環境安全,實現循環經濟之目標。
先進結晶技術是盧明俊教授與國立成功大學黃耀輝教授之合作研發成果,兩位教授合作多年擁有智慧財產權。先進結晶技術應用層面廣泛,如用在養豬廢水之氮磷回收上,可以磷酸銨鎂的形式做為肥料添加劑再利用;用於煙囪排放之二氧化碳吸收,以碳酸鈣之形式回收,可改善能源效率,對環境污染影響程度相對減少,進而大幅減少產業成本負擔。所處理後之產物將不再是無用廢棄物,可成為資源回收販售獲利。目前盧教授正積極推廣並與國內產業合作,將二氧化碳捕集技術往實廠化方向邁進,預計可為廠商減排二氧化碳達20%,有助於減緩地球暖化。

研究團隊配合政府新南向政策,除台灣成員外亦邀請菲律賓的菲律賓大學、馬普瓦大學、亞當森大學、泰國盟庫國王科技大學加入,共同發表學術期刊論文,與新南向國家在學術上緊密鏈結。三年內榮獲三項發明專利,參加多項發明競賽,如「台灣創新技術博覽會」發明競賽、綠點子國際發明暨設計競賽及IIIC國際創新發明競賽,盧教授與黃教授共榮獲6項鈦金及金牌獎。此外,研究團隊也培育多位國內外專業人才,尤其是來自泰國、菲律賓的學生,回國後均能覓得好工作,多位學生畢業後擔任該國教職,也持續參與技術開發;國內的學生也因參加比賽獲得許多獎項,順利升學及就業,達成人生階段目標。

盧教授以獨步全球的新進結晶技術應用在水中重金屬離子的去除,可改善現有程序之能源效率及資源再利用,對環境污染的影響程度,都相對減少,進而大幅減少成本負擔。而此技術所獲得結晶物純度高,有利於後續處理應用、回收與販售獲利。另外此技術在常溫常壓下即可進行此反應,可有效降低設備設置成本與操作成本,所產生的產物容易回收再利用,不會產生二次公害造成後續環境問題,不但可提升產業競爭力,更可有利相關產業綠色生產技術。

〈參考資料〉國際期刊發表資料:
1. Lester Lee E. Bayon, Florencio C. Ballesteros, Angelo Earvin Sy Choi, Sergi Garcia-Segura, Ming-Chun Lu*, 2021, Remediation of cobalt from semiconductor wastewater in the frame of fluidized-bed homogeneous granulation process, Journal of Environmental Chemical Engineering, 9, 105936.

2. Arianne S. Sioson, Angelo Earvin Sy Choi, Mark Daniel G. de Luna, Yao-Hui Huang, Ming-Chun Lu*, 2020, Calcium carbonate granulation in a fluidized-bed reactor: Kinetic, parametric and granule characterization analyses, Chemical Engineering Journal, 382, 122879.

3. Rekich R. Pahunang, Florencio C. Ballesteros Jr, Mark Daniel G. de Lunaa, Anabella C. Vilando, Ming-Chun Lu*, 2019, Optimum recovery of phosphate from simulated wastewater by unseeded fluidized-bed crystallization process, Separation and Purification Technology, 212, 783-790.

研究成果聯絡人
(1)盧明俊特聘教授
科技部傑出研究獎
國立中興大學環境工程學系
E-mail:[email protected]
Tel:06-22840441#537

(2)黃耀輝教授
科技部產學合作特優獎
國立成功大學化學工程學系
E-mail:[email protected]
Tel:06-2757575#62636

[Press Release]December 1, 2021Unique global fluidized bed homogeneous crystallization technology for recovering heavy m...
01/12/2021

[Press Release]

December 1, 2021

Unique global fluidized bed homogeneous crystallization technology for recovering heavy metals in Wastewaters

Circular economy is a key item for the government to promote industrial innovation. Based on the development of circular economy, it promotes the development of related industries and develops green manufacturing processes for high-value products. Under this premise, the Ministry of Science and Technology provides research funding, and the Distinguished Professor Ming-Chun Lu from the Department of Environmental Engineering of National Chung Hsing University develops the fluidized-bed homogeneous crystallization technology that is unique in the world. This technology is mainly applied in the recovery of heavy metals in wastewater, and can also be extended to the recovery of nitrogen and phosphorus in the water. It can also absorb the carbon dioxide emitted by the stacks and convert it into calcium carbonate by the crystallization technology, helping to slow down global warming. This technology can convert the waste that was originally produced after treatment into reusable resources is a practitioner of circular economy.

The traditional crystallization technology for treating heavy metal-containing wastewater has a low purity of crystal grains. This fluidized-bed homogeneous crystallization technology is the advanced one, which can solve the problem of processing a large amount of heavy metal-containing wastewater and waste sludge with high water content; it can realize waste recycling and reuse. Professor Lu developed this fluidized-bed homogeneous crystallization technology to recover heavy metals that were originally harmful to the environment and therefore effectively protect the safety of the environment to achieve the goal of circular economy.

This advanced crystallization technology is a collaborative research and development result of Professor Ming-Chun Lu and Professor Yao-Hui Huang of National Cheng Kung University. The two professors have cooperated for many years and have owned many patents. This advanced crystallization technology has a wide range of applications. For example, it can be used in the recovery of nitrogen and phosphorus from pig-raising wastewater, which can be reused as fertilizer additives in the form of magnesium ammonium phosphate. By this technology, the carbon dioxide emitted by the stacks is absorbed and recovered in the form of calcium carbonate, which can improve energy efficiency and relatively reduce the impact of environmental pollution, thereby greatly reducing the burden of industrial costs. Additionally, the processed products will no longer be useless waste, and can be recycled and sold for profit. At present, Professor Lu is actively promoting and cooperating with industries to move the technology to the direction of full-scale plant. It is expected that this technology can reduce carbon dioxide emissions by up to 20% for manufacturers and help slow global warming. This technology does not require additional heating and pressurization, and can effectively reduce equipment installation costs and operating costs. The products generated by this technology are easy to recycle and reuse without secondary pollution. It won’t induce subsequent environmental problems, and then can strengthen the competitiveness of related industries, which is beneficial for the improvement of green production technology.

In line with the government’s policy, the research team also invited the University of the Philippines, Mapua University of Philippines, Adamson University of Philippines, and King Mongkout’s University of Technology Thonburi of Thailand to jointly publish academic journal papers. In recent three years, Prof. Lu and Huang obtained three invention patents and won 6 awards from the "Taiwan Innovation Technology Expo" invention competition, the Green Idea International Invention and Design Competition and the International Innovation Invention Competition. In addition, the research team has also successfully cultivated many students, especially those from Thailand and the Philippines, who have good jobs after returning to their country and many of them have served as faculty members. By keep joining the research topic and co-published many papers, they still have outstanding performance at their present positions. For Taiwanese students, they were well trained by joining this project and won many awards in the competition. They have successfully progressed to higher education and employment, and achieved their life goals.

Research Contact
Prof. Ming-Chun Lu
Department of Environmental Engineering, National Chung Hsing University, Taiwan
Tel: +886-4-22840441#537
E-mail: [email protected]

Prof. Yao-Hui Huang
Department of Chemical Engineering, National Cheng Kung University, Taiwan
Tel: +886-6-2757575#62636
E-mail: [email protected]

Media Contact
Deh Lee
Program Manager, Department of Engineering and Technologies, MOST
Tel: +886-2-2737-7049
E-mail: [email protected]

[Press Release]

December 1, 2021

Unique global fluidized bed homogeneous crystallization technology for recovering heavy metals in Wastewaters

Circular economy is a key item for the government to promote industrial innovation. Based on the development of circular economy, it promotes the development of related industries and develops green manufacturing processes for high-value products. Under this premise, the Ministry of Science and Technology provides research funding, and the Distinguished Professor Ming-Chun Lu from the Department of Environmental Engineering of National Chung Hsing University develops the fluidized-bed homogeneous crystallization technology that is unique in the world. This technology is mainly applied in the recovery of heavy metals in wastewater, and can also be extended to the recovery of nitrogen and phosphorus in the water. It can also absorb the carbon dioxide emitted by the stacks and convert it into calcium carbonate by the crystallization technology, helping to slow down global warming. This technology can convert the waste that was originally produced after treatment into reusable resources is a practitioner of circular economy.

The traditional crystallization technology for treating heavy metal-containing wastewater has a low purity of crystal grains. This fluidized-bed homogeneous crystallization technology is the advanced one, which can solve the problem of processing a large amount of heavy metal-containing wastewater and waste sludge with high water content; it can realize waste recycling and reuse. Professor Lu developed this fluidized-bed homogeneous crystallization technology to recover heavy metals that were originally harmful to the environment and therefore effectively protect the safety of the environment to achieve the goal of circular economy.

This advanced crystallization technology is a collaborative research and development result of Professor Ming-Chun Lu and Professor Yao-Hui Huang of National Cheng Kung University. The two professors have cooperated for many years and have owned many patents. This advanced crystallization technology has a wide range of applications. For example, it can be used in the recovery of nitrogen and phosphorus from pig-raising wastewater, which can be reused as fertilizer additives in the form of magnesium ammonium phosphate. By this technology, the carbon dioxide emitted by the stacks is absorbed and recovered in the form of calcium carbonate, which can improve energy efficiency and relatively reduce the impact of environmental pollution, thereby greatly reducing the burden of industrial costs. Additionally, the processed products will no longer be useless waste, and can be recycled and sold for profit. At present, Professor Lu is actively promoting and cooperating with industries to move the technology to the direction of full-scale plant. It is expected that this technology can reduce carbon dioxide emissions by up to 20% for manufacturers and help slow global warming. This technology does not require additional heating and pressurization, and can effectively reduce equipment installation costs and operating costs. The products generated by this technology are easy to recycle and reuse without secondary pollution. It won’t induce subsequent environmental problems, and then can strengthen the competitiveness of related industries, which is beneficial for the improvement of green production technology.

In line with the government’s policy, the research team also invited the University of the Philippines, Mapua University of Philippines, Adamson University of Philippines, and King Mongkout’s University of Technology Thonburi of Thailand to jointly publish academic journal papers. In recent three years, Prof. Lu and Huang obtained three invention patents and won 6 awards from the "Taiwan Innovation Technology Expo" invention competition, the Green Idea International Invention and Design Competition and the International Innovation Invention Competition. In addition, the research team has also successfully cultivated many students, especially those from Thailand and the Philippines, who have good jobs after returning to their country and many of them have served as faculty members. By keep joining the research topic and co-published many papers, they still have outstanding performance at their present positions. For Taiwanese students, they were well trained by joining this project and won many awards in the competition. They have successfully progressed to higher education and employment, and achieved their life goals.

Research Contact
Prof. Ming-Chun Lu
Department of Environmental Engineering, National Chung Hsing University, Taiwan
Tel: +886-4-22840441#537
E-mail: [email protected]

Prof. Yao-Hui Huang
Department of Chemical Engineering, National Cheng Kung University, Taiwan
Tel: +886-6-2757575#62636
E-mail: [email protected]

Media Contact
Deh Lee
Program Manager, Department of Engineering and Technologies, MOST
Tel: +886-2-2737-7049
E-mail: [email protected]

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