Now vcycletech lists 10 must-know details
in the water treatment process, hoping to provide the best water treatment
chemicals and professional services in 2021, If you want to improve the
efficiency and extend the life of your water treatment plant, read on! now
let's get started!
If there are signs of problems related to
water quality issues, check the water immediately. Signs of problems are most
often seen in boilers and cooling towers and may appear in any of the following
forms.
- Higher energy costs.
- Frequent replacement of parts.
- Significant downtime.
- Scale buildup on the nozzles.
- High maintenance costs.
Regular sampling is recommended, even if
there are no apparent problems. The source of water delivered influences the
frequency of testing. In areas where the quality of the source water remains
constant, modifications to the municipal water plant or distribution system may
affect the quality of the water transported. In such cases, an annual
inspection is recommended.
In areas where source water is affected by
seasonal changes, it is essential to test the water each season to better
understand and plan for differences. If the plant has its OK water supply, it
is recommended that it be checked once a year to check for changes in the
source water.
There are three sources of information
about the water supply.
If the municipal council supplies the
water, call them for an up-to-date analysis.
If the water supply is from an individual
well, call your local water treatment specialist to check the water.
A third option is to contact a local
inspection lab to analyze the source of water.
The scope of this analysis depends
significantly on the use of the water in the facility. If water is used as a
raw material for production, regulations or in-house engineering provide
quality and testing requirements. If water is used as working water for
cleaning/washing, cooling, or heat transfer, the following list of parameters
should be analyzed. They provide a wide range of characteristics of make-up
water and help determine the type of treatment required by the facility.
- TDS (total dissolved solids)
- TSS (Total Suspended Solids)
- Hardness.
- Chlorine.
- Alkalinity.
- Silica.
- Iron. Iron. The hyperbolic cosine value.
- Chloride.
- pH.
- Bacteria.
There is no "best" technology.
Each technology is used to treat a specific type of water contaminant. Often,
multiple technologies are needed to provide the best solution. Standard water
treatment processes are.
- Filtration, used to reduce suspended
solids, remove bacteria and iron, and absorb chlorine.
- Softening for removal of hardness and
dissolved iron.
- Reverse osmosis for TDS, chloride,
silica, and submicron suspended solids reduction
- Smaller, 5 GPM reverse osmosis units for
boiler make-up water treatment
- Deionization for TDS, silica, and
chloride reduction.
- Water treatment chemicals are used to
adjust pH, alkalinity and eliminate bacteria.
- Ozone is used to eliminate bacteria.
- Ultraviolet light is used to destroy
bacteria.
Water treatment depends on the application.
Each use of water creates minimum requirements. The water supply does not meet
the process specifications and must be treated. Even if the water quality meets
the requirements, there may be opportunities for cost savings based on
additional treatment.
By improving water quality, maintenance of
various machines can be minimized. This cost reduction is very substantial and
is the reason for the additional treatment.
The total cost depends on the quality of
the source water and the degree of water quality improvement. Capital costs
vary for various systems.
Capital cost per 100 GPM system.
Includes the following points.
- Filtration.
- Softening.
- Chemical treatment.
- Ultraviolet light.
- Ozone.
- Deionizer.
- Reverse osmosis.
Operating costs are also a factor. These
costs typically increase with the level of contaminants in the feed water. The
initial investment costs may seem high, but these costs offset the reduction in
savings associated with higher quality water.
For example, heat transfer and boiler
operating efficiencies can be increased by more than 20%. Reduced maintenance,
downtime, and chemical savings also add to the base. Typically, water
augmentation plans can pay for themselves in 1-2 years, even if the water quality
is not low.
If all operations require treated water, a
centralized system is recommended. There are many problems with centralized
systems for high purity water. Depending on the type and length of the
distribution path, there may be problems maintaining quality at the point of
delivery. However, if there are multiple applications, each requiring a
different treatment method, these systems should be reviewed and sized
separately.
8. What is the life expectancy of water
treatment equipment?
Most water treatment systems depreciate
over seven years, but replacement life is between 15-25 years. After seven
years, most major components need to be replaced, and rebuilding and new
equipment must be studied. New equipment is recommended, but only if
technological improvements can provide a more efficient operating solution to
pay for the dismantling of old equipment, new equipment, and installation
costs.
9. What are the essential considerations
when selecting water treatment equipment?
When investigating the purchase or rebuild
of an existing water treatment system, three factors in the selection of
equipment, grid, product, and service. One of these factors are interrelated
and determine the overall value offered.
Price is always the first consideration in
a purchase decision, but all price components should be examined. This includes
capital investment, operation, and maintenance costs, and installation. Product
quality should influence every part of the price. When considering the cost of
depreciation periods, products with enhanced features can often save money
through reduced maintenance, lower operating costs, and increased reliability.
Also, inquire about the supplier's service
factors. Since most water treatment systems are integrated into the overall
plant operation, a quick service response, local spare parts, and treatment
advice are invaluable assets for the water treatment system's smooth and
long-term operation.
10. What are the latest innovations in
water treatment?
The technology has not changed, but its
application has evolved from strictly source water treatment to integrated
recovery systems that can accept treated water for recycling in the process.
For example, boiler examples condensate return circuits, zero blowdown cooling
tower systems, and recovery of process water used for cleaning and purging. In
these applications, water treatment can renew resources that have been
abandoned in the past. Recycling reduces the dependence of many facilities on
water resources and, most importantly, reduces costs and increases the bottom
line.
You might be wondering : What chemicals are
used in wastewater treatment plants?
Here is the solution
Products often purchased by wastewater
treatment plants include
- Polyaluminium Chloride.
- Sodium aluminate.
- Alum or aluminum sulfate.
- Sodium hydroxide.
- Polymers (dewatering).
- Ferrous chloride.
- Ferric chloride.
vcycletech is a professional water treatment chemicals supplier,. If you want to buy water treatment chemicals ,Here is the deal: contact us,We will provide a detailed product list and free samples.For more about water treatment chemical companies