Water usage recording

Phase II Mass Balance. (/) Determine raw material iaputs. 2) Record water usage. 3) Assess present practice and procedures. (4) Quantify process outputs. (5) Account for emissions to atmosphere, to wastewater, and to off-site disposal. (6) Assemble iaput and output information. (7) Derive a preliminary mass balance. (8) Evaluate and refine the mass balance. 

Additionally, comparison of MU water usage and steam production with chemical treatment supplied, fuel consumption records, and flue gas analysis will provides early warning signs of deposit formation. Water analysis records can indicate problems of process contamination, BW carryover, and inadequate oxygen scavenging (and therefore the potential for corrosion). 

Raw material and logistic consumption data Feedstock, energy, and water consumption records are important. Possible source of records of feedstock consumption can be available from stores and accounts department. Water usage can be obtained from water meters or bills, and energy usage from energy bills. 

Water is frequently used in the production process, for cooling, gas scrubbing, washouts, rinsing, and steam cleaning. The water usage needs to be accurately quantified as an input. Also, some unit operations may receive recycled material from other unit operations. These also represent an input. Hence, water and recycled materials need special attention, and therefore steps lA and IB describe how to evaluate these two factors. lA. Record water usage. The use of water, other than for a process reac-... 

It is therefore vital that detailed and accurate records are kept by the operating and engineering departments of the usage and consumption of fuel, water and other services in order that performance against budget can be properly measured and so that data are available for use in compiling future estimates. 

After start-up, the system should be checked at least weekly, with some observations, notably in the early phases, requiring daily monitoring. Information such as ground-water levels, extraction and injection flow rates, groundwater electron acceptor concentrations, nutrient concentrations, pH, and conductivity should be recorded at least on a weekly basis. Complete records of rates, concentrations, electrical usage, and other operational data can be invaluable when evaluating operational efficiency or documenting unit costs. 

Review of information on previous surface conditions and usage (if different from present) based on study of old maps, photographs, archival records and related to any present features observed during site walkover. Identification of features such as landfill zones, mine workings, pits and quarries, sources of contamination, old water courses, etc. 

In addition to the monitoring, live technical support and service dispatching, customers also get fault alert notification via email or phone call, and the tracking, reporting and data collection of unit performance. This data provides a record of burner cycles, burner nui hours, and approximate fuel usage. The OnGuard RMT System also has the ability to monitor up to four water heaters with one communication gateway and provide statistical data on each unit. 

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