HE, Quanfu - HKUST Class Schedule & Quota

Class Schedule & Quota
2025-26 Fall 2024-25 Summer 2024-25 Spring 2021-22 Winter
2025-26 Fall
Common Core Course
The class information on this page will normally be updated every 15 to 20 minutes during class enrollment period.
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This service was first adapted from a student contribution in 2011-12 Fall. The efforts of all concerned are duly acknowledged.

AIAA AMAT BSBE CMAA CNCC CNGF DLED DSAA EOAS FTEC FUNH INFH INTR IOTA IPEN LANG MICS MSSM PDEV PLED ROAS SEEN SMMG SOCH SYSH UCMP UCUG UFUG UGOD

COURSE INFO

VECTOR	[3-0-0:3]
DESCRIPTION	Mathematical modeling of atmospheric composition and processes presents a formidable scientific and computational challenge. This course offers a comprehensive overview of the modeling methods utilized in atmospheric chemistry, covering the fundamental principles behind the models and their applications in interpreting observations. Special emphasis will be placed on recent advancements in the study of chemical reactions of trace gases, heterogeneous reactions of organic vapors, emission and deposition processes, meteorological coupling, model evaluation against observations, and adjoint models for integrated assessment and cost-benefit analysis. The course aims to: a) provide an overview of the most significant processes controlling the fate of atmospheric constituents, b) introduce the numerical methods used to describe them mathematically, and c) illustrate the simplified representation of atmospheric chemistry in models and its implications for model predictions.

VECTOR

[3-0-0:3]

DESCRIPTION

Mathematical modeling of atmospheric composition and processes presents a formidable scientific and computational challenge. This course offers a comprehensive overview of the modeling methods utilized in atmospheric chemistry, covering the fundamental principles behind the models and their applications in interpreting observations. Special emphasis will be placed on recent advancements in the study of chemical reactions of trace gases, heterogeneous reactions of organic vapors, emission and deposition processes, meteorological coupling, model evaluation against observations, and adjoint models for integrated assessment and cost-benefit analysis. The course aims to: a) provide an overview of the most significant processes controlling the fate of atmospheric constituents, b) introduce the numerical methods used to describe them mathematically, and c) illustrate the simplified representation of atmospheric chemistry in models and its implications for model predictions.

EOAS 6000J - Atmospheric Chemistry Modeling (3 units)

Section	Date & Time	Room	Instructor	Quota	Enrol	Avail	Wait	Remarks
L01 (6092)	TuTh 10:30AM - 11:50AM	Rm 202, W1	GUO, Yixin HE, Quanfu	20	5	15	0

COURSE INFO

VECTOR	[0-1-0:0]
DESCRIPTION	Seminar topics presented by students, faculty and guest speakers. Students are expected to attend regularly and demonstrate proficiency in presentation in accordance with the program requirements. Graded P or F.

FUNH 6800I - Function Hub Seminar (0 units)

Section	Date & Time	Room	Instructor	Quota	Enrol	Avail	Wait	Remarks
T02 (6134)	Mo 06:00PM - 06:50PM	Rm 102, W4	HE, Quanfu	60 Quota/Enrol/Avail EOAS students: 60/21/39	22	38	0	This section is for EOAS students only.