Master of Chemical and Biological Engineering
所属信息
基本信息
项目时长
12-16 months申请截止日期
-
秋季
-
常规
2024/12/1
-
其他
申请信息
TOEFL要求
90.00
IELTS要求
6.50
申请材料
GPA: B+ range (76% at UBC)
GRE not required
GRE not required
特点
化学工程和化学与生物工程负责创造和开发,将原材料转化为社会必需的产品,如食品、化学品、燃料、能源、金属、药品、纸张、塑料和个人护理产品。他们在管理自然资源、保护环境、控制健康与安全程序、回收材料方面发挥着重要作用,同时开发和管理制造这些产品的工艺。
该大学在多个化学工程科学领域享有世界级声誉,涵盖流体固体接触、纸浆和造纸工程、热交换器结垢,以及生物技术等最新研究方向。
Chemical and Chemical & Biological engineers create and develop processes to change raw materials into the products that society depends on; food, chemicals, fuels, energy, metals, pharmaceuticals, paper, plastics, and personal care products. Chemical and process engineers help to manage natural resources, protect the environment, control health and safety procedures, and recycle materials, while developing and managing the processes which make the products we use. The University has established a world-class reputation in several areas of chemical engineering science including fluid-solids contacting, pulp and paper engineering, heat exchanger fouling and, more recently, biotechnology.
课程设置介绍:
RESEARCH INFORMATION
RESEARCH HIGHLIGHTS
UBC Biomedical Engineering researchers work in a wide range of areas. Our main research themes include Cellular and Molecular Engineering (including Regenerative Medicine, Synthetic Biology, and Immune Engineering); Imaging and Computational Biology (including AI & Multiscale Imaging, Bioinformatics/Systems Biology, and Computational Modeling & Automation); Human Interfacing Devices (including Therapeutic Delivery Systems & Nanodevices, Bionics & Bio-Sensors, Biomaterials, and Biomechanics/Injury Prevention).
We are now building capacity to increase research opportunities in areas of global importance including molecular and cellular engineering and synthetic biology, genomics and nano-devices, immune-engineering and advanced biomaterials, regenerative medicine, artificial intelligence and simulation systems with biomedical application, visualization and imaging from nanomolecular to physiological scales.
RESEARCH FOCUS
UBC Biomedical Engineering researchers work in a wide range of areas. Our main research clusters (RC) include: Imaging, Modeling, Simulation, and Guided Interventions; BIOMEDs and Bio-Optics; Musculoskeletal Biomechanics, Injury, Disease, and Restorative Treatments; Rehabilitative and Assistive Technologies and Human-Environment Interactions; Physiological Modeling and Control; and Computational and Synthetic Biology.
PROGRAM COMPONENTS
Students in the MEng program complete an internship or co-op in Biomedical Engineering in one of three formats: hospital internship, industry internship or co-op placement, or supervised research project.
该大学在多个化学工程科学领域享有世界级声誉,涵盖流体固体接触、纸浆和造纸工程、热交换器结垢,以及生物技术等最新研究方向。
Chemical and Chemical & Biological engineers create and develop processes to change raw materials into the products that society depends on; food, chemicals, fuels, energy, metals, pharmaceuticals, paper, plastics, and personal care products. Chemical and process engineers help to manage natural resources, protect the environment, control health and safety procedures, and recycle materials, while developing and managing the processes which make the products we use. The University has established a world-class reputation in several areas of chemical engineering science including fluid-solids contacting, pulp and paper engineering, heat exchanger fouling and, more recently, biotechnology.
课程设置介绍:
RESEARCH INFORMATION
RESEARCH HIGHLIGHTS
UBC Biomedical Engineering researchers work in a wide range of areas. Our main research themes include Cellular and Molecular Engineering (including Regenerative Medicine, Synthetic Biology, and Immune Engineering); Imaging and Computational Biology (including AI & Multiscale Imaging, Bioinformatics/Systems Biology, and Computational Modeling & Automation); Human Interfacing Devices (including Therapeutic Delivery Systems & Nanodevices, Bionics & Bio-Sensors, Biomaterials, and Biomechanics/Injury Prevention).
We are now building capacity to increase research opportunities in areas of global importance including molecular and cellular engineering and synthetic biology, genomics and nano-devices, immune-engineering and advanced biomaterials, regenerative medicine, artificial intelligence and simulation systems with biomedical application, visualization and imaging from nanomolecular to physiological scales.
RESEARCH FOCUS
UBC Biomedical Engineering researchers work in a wide range of areas. Our main research clusters (RC) include: Imaging, Modeling, Simulation, and Guided Interventions; BIOMEDs and Bio-Optics; Musculoskeletal Biomechanics, Injury, Disease, and Restorative Treatments; Rehabilitative and Assistive Technologies and Human-Environment Interactions; Physiological Modeling and Control; and Computational and Synthetic Biology.
PROGRAM COMPONENTS
Students in the MEng program complete an internship or co-op in Biomedical Engineering in one of three formats: hospital internship, industry internship or co-op placement, or supervised research project.