User:로봇-박영수/sandbox

박영수 (Yeoung-Soo Park) < 연구인, 전 대학특임교수 >

1961년생, 서울특별시, 용산공업고등학교, 인하대학교 전기공학과(1979~1983) 학사, (주)플라스틱넷 (엔지니어링) 기술연구소 연구소장 (주)티지엠솔루션 (건설) 개발 및 기술책임자 전) 상명대학교 미래혁신융합기술연구소 특임교수       전) 상명대학교 초고온클린에너지 기술연구소 특임교수 전) (주)씨디에스에스이 부사장 (폐기물 연소사업)      전) (주)디케이엔지니어링 부사장 전) (주)이명전기 부사장/기술연구소장       전) 성호엔지니어링 대표 전) (주)경호엔지니어링 플랜트사업부 전기부 계측제어팀 부장       전) (주)한보그룹 (주)한보 엔지니어링 사업부 계측제어팀 차장 전) 동양보일러(주)/동보중공업(주) 기술연구소 차장                 정부 연구개발과제 수행 실적 :   1) 해양수산부 : 초고온연소설계에 의한 이동식 해양쓰레기처리시스템 개발 2) 중소벤처기업부 : 친환경 난연성 폐기물 소각처리시스템 개발 기술도서 및 발표문 :  1) 증기발생용 보일러의 자동화 기술 (엔지니어링네트, 2003년) 2) The Complete Incineration of Flame retardant waste and the Energy recovery with economic analysis (2019.10.28) 산업재산권 등록 내역 :   1) 실용신안등록 KR0330783 폐고무 및 폐합성수지를 각각 재활용 생산된 부품을 결합하여 만든 보도용 인터록킹 블록 및 인도용 블록 2) 실용신안등록 KR0330792 폐타이어, 폐고무 및 폐합성수지 칩이 들어간 블록과 폐타이어 나 폐고무 칩으로 재활용 생산된 고무블록을 결합하여 만든 보도용 인터록킹 블록 및 인도용 블록  3) 실용신안등록 KR0368119 콘크리트 블록 또는 폐합성수지 블록과 폐타이어나 폐고무 칩으로 재활용 생산된 고무블록을 결합하여 만든 고무블록 4) 실용신안등록 KR20-0414464 열팽창 및 수축에 의한 노화방지용 고무 블록    5) 특허등록 KR10-1916128 고온 싸이클론 연소기 6) 특허등록 KR10-1916129 저공해 배치형 고온 싸이클론 연소기  7) 특허등록 KR10-1928288 혼소 사이클론 연소기 8) 특허등록 KR10-1940960 건/습 폐기물을 열원으로 하는 폐회로형 소각시스템  9) 상표등록 KR40-2116407 폐기물 융합 처리 시스템(저NOx 고온사이클론연소기), Waste Complex Processing System with HiTCC 산업재산권(특허 및 상표) 출원 심사중인 내역 : 1) 무촉매, 고온사이클론 연소방식 융합 저온열분해 유화장치  2) 포화증기 및 과열증기를 이용한 저온열분해 재생자원 회수장치 3) 전처리공정이 필요없는 연속식 포화증기 및 과열증기를 이용한 저온열분해 재생자원 회수방법 및 장치 자료소개    

Yeoung-Soo Park 

Born on 1961 in Seoul, Korea. In March 1976, he entered the electrical department of Yongsan technical high school in Seoul and studied theory and practice of electricity and industrial electronics for three years. In March 1979, he entered the department of electrical engineering, Inha University in Incheon and granduated in February 1983 after paving may way for four years. It became the foundation for my current organizing habit.

Career

1) Heating furnace equipment and production equipment. : Daewon Gangup Co., Ltd.     (Supplementation and maintenance of burner equipment such as molding furnaces, utility steam boilers and piping, electrical equipment, and various control panels.)  2) Industrial boiler : Dongyang boiler Co., Ltd. / Dongbo Heavy Industries Co., Ltd. Technology Research Center. (Design of industrial boilers, special incineration boilers, Korea District Heating hot water boilers, etc., support for on-site test operation, etc., supported by Japan's Mitsui Shipbuilding & Marine Engineering Technology Agreement) 3) Power Plant : Hanbo Group, Hanbo Co., Ltd., Engineering Division Measurement Instrument & Control Team.     (Dangjin Hanbo Steel, engineering PE for utility steam equipment. thermal power plant construction engineering Instrument & Control manager) 4) Water resources and waste treatment facility engineering : Kyungho Engineering Co., Ltd. Plant division Electrical department Instrument & Control team manager. (Detailed design of the Guri resource recovery facility in Gyeonggi-do, basic and detailed design of sewage treatment plants and water purification plants in Guri City, Namyangju City and Gwangju County.) 5) Combined heat and power generation : Seongho Engineering CEO     (Participation in the design of Korea District Heating Technology cogeneration project, Hyosung Plant division's apartment small cogeneration project, etc.)  6) Korean and overseas industrial boilers, wood chip power plants, etc. : DK Engineering, LeeMyung Electric Co., Ltd. Vice President/Technical Research center director (Piping & Instrumentation diagram, electrical and instrumentation design, construction, commissioning, and operation support) 7) Waste Combustion : CDSSE Co., Ltd. Vice President 8) Research Professor : Sangmyung University Industry Academy Cooperation Foundation, Clean energy Ultra High Temperature Research Institute, / Next Gen. Convergence Tech. Institute (1) High-temperature cyclone combustion system design data and application design, - Design and test operation dispatched to Ssangryang Group in Gangin-si, China. - Development of a mobile marine waste disposal system using ultra-high temperature combustion design, - Development of eco-friendly flame retardant waste incineration treatment system, (2) Develop high-temperature cyclone combustor application equipment and build manufacturing, testing and design data. 9) Waste Complex Processing System with HiTCC(High Temperature Cyclone Combustor) :   (1) TGM Solutions Co., Ltd. CTO/Technical Research center director (Review, supplement, design of existing low-temperature pyrolysis system),    (2) Plastic-Net Co., Ltd. Technical Research center director (Low-temperature pyrolysis system development project using superheated steam)

Industrial property rights 1) Utility model registration KR0330783 : Interlocking blocks for sidewalks and blocks for sidewalks made by combining parts produced from recycled waste rubber and waste synthetic resin, respectively. 2) Utility model registration KR0330792 : Interlocking blocks for sidewalks and sidewalk blocks made by combining blocks containing waste tires, waste rubber, and waste synthetic resin chips with rubber blocks recycled from waste tires or waste rubber chips. 3) Utility model registration KR0368119 : Rubber block made by combining concrete blocks or waste synthetic resin blocks with rubber blocks recycled from waste tires or waste rubber chips. 4) Utility model registration KR20-0414464 : Rubber block for preventing aging due to thermal expansion and contraction. 5) Patent registration KR10-1916128 : High-temperature cyclone combustor. 6) Patent registration KR10-1916129 : Low-emission batch type high-temperature cyclone combustor. 7) Patent registration KR10-1928288 : Mixed Fuel cyclone combustor. 8) Patent registration KR10-1940960 : Closed-circuit incineration system using dry/wet waste as a heat source. 9) Trademark KR40-2116407 : Waste Complex Processing System with HiTCC(High-Temperature Cyclone Combustor)

Low-temperature pyrolysis technology development description 1) Eco-friendly non-catalyst, high-temperature cyclone combustion type complex low-temperature pyrolysis system technology. 2) Low-temperature pyrolysis renewable resource recovery method using saturated steam and superheated steam. 3) Low-temperature pyrolysis renewable resource recovery method using continuous saturated steam and superheated steam that does not require pretreatment process. 4) Summary of domestic(Korea) and overseas low-temperature pyrolysis-related research papers 5) Summary of organic chemistry terms.

Introduction site   

로봇-박영수 (talk) 14:48, 15 February 2024 (UTC)