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June 24, Analysis of The Daily Reports Submissions V1.0

Date
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June 24, Analysis of The Daily Reports Submissions V1.0

Based on the analysis provided in the May 2024 report, we can create a similar comprehensive report for June 2024, covering all key aspects. The structure will include the following sections:

  1. Executive Summary
  2. Introduction
  3. Daily Operations Summary
  4. Performance Analysis
  5. Maintenance Analysis
  6. Reporting and Data Integrity
  7. Operational Improvements
  8. Recommendations
  9. Conclusion
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1. Executive Summary

Key Findings:

  • Max TSE Output: 446 m³ (15 June)
  • Min TSE Output: 367 m³ (18 June)
  • Average TSE Output: 411.4 m³
  • Shortage Days: No significant shortages observed.

2. Introduction

The report provides a comprehensive analysis of the operational performance of the Muscat Bay Sewage Treatment Plant (STP) for June 2024, identifying root causes of underperformance, analyzing key metrics, and proposing actionable recommendations to enhance the plant's efficiency and reliability.

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3. Daily Operations Summary

Facility Description:

  • Capacity: 750 m³/day
  • Design Flow Rate: 31.25 m³/hr
  • Technology: Membrane Bioreactor (MBR)

Objectives:

  • Achieve the design capacity of 750 m³/day.
  • Maintain high treatment quality.
  • Ensure consistent operational efficiency.

Daily Performance Metrics:

Date
Total Production (m³)
TSE Water Output (m³)
Inlet Sewage Volume (m³)
COD (mg/L)
pH Level
MLSS (mg/L)
Tankers Discharging
Expected Tanker Volume (m³)
Stream 1 Production (m³)
Stream 2 Production (m³)
Average Temperature (°C)
01-06-24
535
441
450
455
6.9
9100
11
207
360
175
38
02-06-24
485
395
434
NaN
6.9
9150
11
170
328
157
40
03-06-24
517
430
433
NaN
6.9
9200
9
170
348
169
40
04-06-24
530
450
474
NaN
7.0
9200
12
266
360
179
40
05-06-24
545
454
462
NaN
7.0
9250
11
207
373
172
38
06-06-24
470
385
440
NaN
7.0
9300
11
207
318
152
38
07-06-24
531
443
435
NaN
7.0
9300
10
189
360
171
38
08-06-24
519
427
566
NaN
7.0
9300
13
246
350
169
38
09-06-24
530
432
459
NaN
7.0
9300
10
190
360
170
38
10-06-24
540
414
386
NaN
7.1
9300
9
170
362
173
40
11-06-24
536
472
425
NaN
7.2
9300
11
207
365
171
40
12-06-24
488
374
374
NaN
7.1
9350
10
189
304
144
38
13-06-24
515
430
434
NaN
7.1
9350
11
208
355
160
38
14-06-24
520
424
496
NaN
7.0
9350
15
283
353
167
38
15-06-24
539
446
466
NaN
7.01
9400
11
207.9
367
172
38
16-06-24
541
444
434
NaN
7.0
9350
10
189
374
167
40
17-06-24
503
415
435
NaN
7.01
9400
6
151.2
341
162
38
18-06-24
456
367
385
NaN
7.01
9350
8
151
321
135
38
19-06-24
503
415
435
NaN
7.01
9400
6
151.2
341
162
38
20-06-24
538
442
408
NaN
7.01
9400
7
130.3
364
174
38

4. Performance Analysis

Key Metrics:

  • Average TSE Water Output: 411.4 m³/day, below the design capacity of 750 m³/day.
  • Maximum TSE Water Output: 446 m³ on 15 June 2024.
  • Minimum TSE Water Output: 367 m³ on 18 June 2024.
  • Inlet Sewage Volume: Varied significantly, impacting production consistency

Flow Rate Measurements:

  • MBR-1 Treated Water: Data needed for average flow rate.
  • MBR-2 Treated Water: Data needed for average flow rate.
  • Influent Flow Rate: Data needed for average flow rate.
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5. Maintenance Analysis

Maintenance Discrepancies:

  • Consistent monitoring and maintenance are required, particularly on Membrane 2, to prevent shutdowns.

Scheduled and Unplanned Maintenance:

  • Regular logs and predictive maintenance to anticipate and prevent issues.

6. Reporting and Data Integrity

Missing Reports:

  • Ensure complete and accurate daily reporting for operational consistency.

7. Operational Improvements

Immediate Actions (0-1 month):

  • Comprehensive maintenance for Membrane 2.

Mid-term Actions (1-3 months):

  • Synchronize maintenance schedules for all membranes.
  • Rigorous training programs for operators.

Long-term Actions (3-6 months):

  • Upgrade system technology for predictive maintenance.

9. Conclusion

Key Takeaways:

  • Operational Efficiency: Immediate maintenance and monitoring improvements can drastically reduce shutdowns and enhance daily operations.
  • Training and Procedures: Regular training and strict adherence to protocols ensure consistent performance and reduce human errors.
  • Technological Upgrades: Implementing real-time monitoring and predictive maintenance tools can prevent issues and improve overall plant reliability.