1 / 13

EAT 342: Noise Pollution Control Problem Based Learning

| School of Environmental Engineering. EAT 342: Noise Pollution Control Problem Based Learning. TITLE. Noise Pollution Monitoring and Assessment of Various Sources and Likelihood Nuisance – Dwellings, Hospital, University , Urban Corridors, Construction Areas, Traffics, Parks and Industries.

kacia
Télécharger la présentation

EAT 342: Noise Pollution Control Problem Based Learning

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. | School of Environmental Engineering EAT 342: Noise Pollution ControlProblem Based Learning

  2. TITLE Noise Pollution Monitoring and Assessment of Various Sources and Likelihood Nuisance – Dwellings, Hospital, University, Urban Corridors, Construction Areas, Traffics, Parks and Industries • 1O major locations • University areas • Dwellings • Traffic • Urban corridors • Night market • Park • Hospital • Construction • Industries

  3. EVALUATIONS 10% of total marks (from coursework) Assessment tools • PO2 – Report marks • PO3 – Report marks • PO9 – peer evaluation (rubric)

  4. OBJECTIVES – CO2 & CO3 There several objectives that should be highlighted by the students, which are: • To determine the noise level in selected sources (LAeq, LDN) – morning, afternoon, night, weekdays, weekend, spatial • To collect data, make a comparison and analysis on noise level by referring to OSHA standard or Factories and Machinery Act, ISO 9613-2:1996, and International Electrotechnical Commission (IEC) standards. • To give recommendation for the improvement based on the problem encountered.

  5. SCOPE OF WORKS • Determination of : • Demographic, geographic locations and meteorological aspects, others (i.e: numbers of contributing sources; vehicles) • Sampling locations for noise pollution monitoring (at least 3 points) • Sampling schemes (i.e: For each sampling location, noise measurements were carried out continuously for the period of ten days with seven hours of monitoring per day with a gap of one hour after every hour of reading. For each hour, the noise levels were recorded after every two minutes (i.e. 30 readings were recorded every hour.) • Detail sampling schedule (i.e: morning 10.00-11.00 a.m., afternoon 12.00-1.00 p.m., 2.00-3.00 p.m., evening 4.00-5.00 p.m., 6.00-7.00 p.m., 8.00-9.00 p.m. and night 10.00-11.00 p.m.) • Readings can be repeated (i.e: after 30 days of sampling)

  6. SCOPE OF WORKS • Analysis: • Statistical analyses • Calculation of Leq, L10, L30 & L50

  7. GROUP DISTRIBUTION • Location: University (Pauh Putra, Jejawi, Uniciti – Cafes) • Location: University (students’residential) • Location: University (Pauh Putra, Jejawi, Uniciti – Lecture rooms) • Location: University (Pauh Putra, Jejawi, Uniciti – Laboratories)

  8. GROUP DISTRIBUTION • Location: Traffic (Kangar) • Location: Traffic (Arau)

  9. GROUP DISTRIBUTION • Location: Urban corridors (General- bank, police station) • Location: Urban corridors (Shoplots)

  10. GROUP DISTRIBUTION • Location: Bus Stations (2 locations) • Location: Park (TasikMelati)

  11. GROUP DISTRIBUTION • Location: Hospital • Location: Construction sites

  12. GROUP DISTRIBUTION • Location: Day & Night Markets (Pasarmalam – PasarTani) • Location: Industry (CIMA/Shorubber)

  13. GROUP DISTRIBUTION • Location: New Dwelling (Indoor & Outdoor) • Location: Old Dwelling (Indoor & Outdoor)

More Related