Beaumont Sport and Recreation Centre - Main Pool
5001 Rue Eaglemont Beaumont AB T4X 0H9 · Aquatic Facility
12 inspections
- Demand Inspection
0 infractions
- Risk Management Inspection
0 infractions
- Monitoring Inspection
2 infractions
- 04. Is the chemical quality of the water in this pool satisfactory (Critical)?
- PHI pool chemistry taken at 12:34pm:- FCL = 3.2ppm**pH = 6.50, while the controller at that time read 7.09ACTION REQUIRED:1) The pH reading shall be maintained between 6.8 - 7.6. The reading in the basin was significantly lower than that on the controller. Please take action to ensure that the readings on the controller align with the readings in the pool basin. This may require the probes to be cleaned or calibrated.
- 05. Is the chemical quality of the water in this pool satisfactory (Non-Critical)?
- Alkalinity reading taken at 12:34pm was measured at 194ppm.Ensure that alkalinity is maintained between 60-180ppm
- 04. Is the chemical quality of the water in this pool satisfactory (Critical)?
- Demand Inspection
1 infraction
- 03. Is the bacteriological quality of the water in this pool satisfactory (Non-Critical)?
- 150HPC present in a sample submitted on September 9, 2025
- 03. Is the bacteriological quality of the water in this pool satisfactory (Non-Critical)?
- Demand Inspection
1 infraction
- 03. Is the bacteriological quality of the water in this pool satisfactory (Non-Critical)?
- 150HPC present in a sample submitted on September 9, 2025
- 03. Is the bacteriological quality of the water in this pool satisfactory (Non-Critical)?
- Monitoring Inspection
0 infractions
- Monitoring Inspection
0 infractions
- Risk Management Inspection
1 infraction
- 07. Are the filtration, circulation and disinfection systems used to maintain water quality working properly (Non-Critical)?
- ** Turnover = 185800gal/638gpm/60gpm =4.8 hours (not acceptable). Ensure that the turnover for the pool is maintained within 4 hours.The pool has two sand filters in parallel, each with a design flow rate of 638 gpm. To achieve the 4 hour turnover, you will need a minimum flow rate of 774gpm. Considering the filter arrangement, each is assumed to handle 50% of the flow rate (336gpm, which is well below the designed max flow of the respective filters). Filtration area for each filter is 33.8 sq.ft. Filtration rate can be calculated as-638gpm/67.6sq.ft= 9.43 gpm/sq.ft
- 07. Are the filtration, circulation and disinfection systems used to maintain water quality working properly (Non-Critical)?
- Demand Inspection
2 infractions
- 03. Is the bacteriological quality of the water in this pool satisfactory (Non-Critical)?
- Water sample submitted on May 21 had 110HPC
- 07. Are the filtration, circulation and disinfection systems used to maintain water quality working properly (Non-Critical)?
- ** Turnover = 185800gal/638gpm/60gpm =4.8 hours (not acceptable). Ensure that the turnover for the pool is maintained within 4 hours.The pool has two sand filters in parallel, each with a design flow rate of 638 gpm. To achieve the 4 hour turnover, you will need a minimum flow rate of 774gpm. Considering the filter arrangement, each is assumed to handle 50% of the flow rate (336gpm, which is well below the designed max flow of the respective filters). Filtration area for each filter is 33.8 sq.ft. Filtration rate can be calculated as-638gpm/67.6sq.ft= 9.43 gpm/sq.ft
- 03. Is the bacteriological quality of the water in this pool satisfactory (Non-Critical)?
- Risk Management Inspection
1 infraction
- 07. Are the filtration, circulation and disinfection systems used to maintain water quality working properly (Non-Critical)?
- ** Turnover = 185800gal/638gpm/60gpm =4.8 hours (not acceptable). Ensure that the turnover for the pool is maintained within 4 hours.The pool has two sand filters in parallel, each with a design flow rate of 638 gpm. To achieve the 4 hour turnover, you will need a minimum flow rate of 774gpm. Considering the filter arrangement, each is assumed to handle 50% of the flow rate (336gpm, which is well below the designed max flow of the respective filters). Filtration area for each filter is 33.8 sq.ft. Filtration rate can be calculated as-638gpm/67.6sq.ft= 9.43 gpm/sq.ft
- 07. Are the filtration, circulation and disinfection systems used to maintain water quality working properly (Non-Critical)?
- Demand Inspection
2 infractions
- 03. Is the bacteriological quality of the water in this pool satisfactory (Non-Critical)?
- 3250HPC in a sample submitted on January 16. Resample required.
- 07. Are the filtration, circulation and disinfection systems used to maintain water quality working properly (Non-Critical)?
- ** Turnover = 185800gal/638gpm/60gpm =4.8 hours (not acceptable). Ensure that the turnover for the pool is maintained within 4 hours.The pool has two sand filters in parallel, each with a design flow rate of 638 gpm. To achieve the 4 hour turnover, you will need a minimum flow rate of 774gpm. Considering the filter arrangement, each is assumed to handle 50% of the flow rate (336gpm, which is well below the designed max flow of the respective filters). Filtration area for each filter is 33.8 sq.ft. Filtration rate can be calculated as-638gpm/67.6sq.ft= 9.43 gpm/sq.ft
- 03. Is the bacteriological quality of the water in this pool satisfactory (Non-Critical)?
- Monitoring Inspection
1 infraction
- 07. Are the filtration, circulation and disinfection systems used to maintain water quality working properly (Non-Critical)?
- ** Turnover = 185800gal/638gpm/60gpm =4.8 hours (not acceptable). Ensure that the turnover for the pool is maintained within 4 hours.The pool has two sand filters in parallel, each with a design flow rate of 638 gpm. To achieve the 4 hour turnover, you will need a minimum flow rate of 774gpm. Considering the filter arrangement, each is assumed to handle 50% of the flow rate (336gpm, which is well below the designed max flow of the respective filters). Filtration area for each filter is 33.8 sq.ft. Filtration rate can be calculated as-638gpm/67.6sq.ft= 9.43 gpm/sq.ft
- 07. Are the filtration, circulation and disinfection systems used to maintain water quality working properly (Non-Critical)?