The proposed bubble private school zone will cater 90 graduating engineering students that will finish their last semester in college through face to face learning. The bubble school is an isolation zone to protect its students from the COVID-19 pandemic during the final semester of the school year. 15 instructors and 15 non-teaching staff will also join the bubble. No student, instructor, or staff will be allowed to leave the bubble until the end of the semester. The zone has the existing academic building with canteen and the dormitory of the school. The academic building has 4 male comfort rooms each with 4 water closets, 4 urinals, and 2 lavatories; 4 female comfort rooms each with 4 water closets, and 4 lavatories; a mini gym with 12 shower heads, 10 drinking fountains, and 12 service sinks. The canteen has 2 lavatories, 4 kitchen sinks, 3 common comfort rooms each with a urinal, water closet, and a wall mounted lavatory. The dormitory will house a fixed of 5 occupants per room. Each room has a kitchen sink, a toilet with a shower, bidet, water closet, and a lavatory. The dormitory is also equipped with 10 laundry trays and 10 service sinks. Assume all rooms are maximized and the school zone will have a 1 hour duration that will adequately satisfy the demand. Determine the following: 1. Peak water demand (GPM) in the dormitory 2. Volume of the water tank in the canteen using WSFU method in cubic meter 3. Volume of the water tank in the academic building using the WSFU method in cubic meter
The proposed bubble private school zone will cater 90 graduating engineering students that will finish their last semester in college through face to face learning. The bubble school is an isolation zone to protect its students from the COVID-19 pandemic during the final semester of the school year. 15 instructors and 15 non-teaching staff will also join the bubble. No student, instructor, or staff will be allowed to leave the bubble until the end of the semester. The zone has the existing academic building with canteen and the dormitory of the school. The academic building has 4 male comfort rooms each with 4 water closets, 4 urinals, and 2 lavatories; 4 female comfort rooms each with 4 water closets, and 4 lavatories; a mini gym with 12 shower heads, 10 drinking fountains, and 12 service sinks. The canteen has 2 lavatories, 4 kitchen sinks, 3 common comfort rooms each with a urinal, water closet, and a wall mounted lavatory. The dormitory will house a fixed of 5 occupants per room. Each room has a kitchen sink, a toilet with a shower, bidet, water closet, and a lavatory. The dormitory is also equipped with 10 laundry trays and 10 service sinks. Assume all rooms are maximized and the school zone will have a 1 hour duration that will adequately satisfy the demand.
Determine the following:
1. Peak water demand (GPM) in the dormitory
2. Volume of the water tank in the canteen using WSFU method in cubic meter
3. Volume of the water tank in the academic building using the WSFU method in cubic meter
4. Minimum volume of the tank to be considered in the dormitory
5. Minimum volume of the tank to be considered in the academic building
6. Demand (GPM) based on the load of water supply fixture units in the canteen
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