Budget Management with Commercial Rainwater Collection System

Commercial rainwater harvesting systems are gaining popularity these days. Some pursue it to manage stormwater, while others are striving a sustainable approach water use. Whatever the reason is, the whole process involves a big chunk of money.

To do proper budget analysis, it is imperative to understand the design of a system and its related costs. 

Tips for budget management in the commercial rainwater collection system:

Project Goals

Every project has its own goals and requirements. If the goal is sustainability, cost may not be an issue.  However, if budget is the driving force, a smaller system may be the best bet.

Tank Material and Size

Studies show that the storage tank can be the most expensive component of a rainwater harvesting system. Factors that affect the price of a cistern include type, size and location.  In order to get the most of a rainwater harvesting system, the tank needs to be large enough to hold the optimum amount of water without being too big for the project.

System Sizing

It is important to understand what the water will be used for and determine the appropriate size of the whole system to manage the commercial rainwater collection system. Included in the cost consideration is installation as well as maintenance costs that will come afterward.

The best way to manage costs without compromising on efficiency is to seek expert help. A professional water harvesting expert can catch things that you might miss and help to design the perfect system.  The right expert will work with you to analyze the supply and demand and develop a system that meets the project parameters.  They will take all your requirements and preferences into consideration and give you the best possible harvesting system to store water for your project.  

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Saving Water for the Future: Commercial Rainwater Collection Systems

Water is a natural resource. But, there is always scarcity of water in both residential and commercial areas. Yet an effective commercial rainwater collection system can make it easy to conserve water for the future.

 

Many industrial and commercial units have huge daily requirement of water for various purposes. Water scarcity can present a real challenge to business and even bring them to a standstill.

 

The commercial rainwater collection system has many benefits. A commercial property can collect a large amount of water from the rooftop and treat it on site for reuse. The process of commercial rainwater harvesting is almost the same as residential rainwater harvesting but it is done on a larger scale.  There is typically a storage cistern, filtration and sanitation in both systems.  The treated water can be used for non-potable applications such as toilet flushing, irrigation or cooling tower make-up.

 

Millions of gallons of water can be collected from large commercial and industrial rooftops.  This not only helps to conserve water but also provides a method to manage onsite stormwater runoff.

 

There is also a cost savings associated with a commercial rainwater harvesting system.  In addition to conserving a natural resource, the system can lower the monthly water bill. Annual savings can be thousands of dollars, which can be redirected back to the building owners and businesses.

 

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Four Benefits of Gray Water Harvesting

 Gray water refers to wastewater that has been gently used. It usually comes from showers, lavatory sinks and laundry. It differs from rainwater in that it requires a more robust filtration and sanitation system to treat it for reuse. Installing a gray water harvesting system provides these benefits:

 1. Reduce dependence on municipal water. – It does not make sense to flush toilets will high-quality drinking water.  Gray water can act be a good alternative for applications such as flushing toilets and irrigation. With a sufficient filtration and sanitation that a properly design harvesting system provides, a supply of gray water can significantly lower the amount of municipal water a property uses.  This benefits the community by reducing the load on local resources.

2. Reduce municipal water bill. – The direct result of conserving the amount of municipal water a property uses is a reduced water bill.  The right gray water harvesting system can save thousands of dollars each year.

 

3. Ensure a predictable supply of water. – Since gray water typically comes from showers and lavatory sinks, is often a constant supply. However, it calls for an efficient and reliable processing system to ensure that the water is properly treated and ready for use.

 

4. Conservation of water. – When gray water is used for multiple applications, it reduces the strain on our natural resources.  In areas where water is scarce, gray water harvesting is an important sustainability strategy.

 

 Be sure to contact a reputable specialist to get the right gray water harvesting system, which should be compliant with the NSF/ANSI Standard 350 or IAPMO 324 for effectiveness and safety.

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5 Things to Know About Stormwater Pollution

 There is a crucial difference between rainwater and stormwater. Rainwater is relatively clean water collected on rooftops, but it turns into stormwater once it reaches the ground. Why? Because of pollution. 

Stormwater can pose a huge problem, especially for urban communities.  The volume of stormwater and the pollution carried with it can overwhelm local stormwater infrastructure and treatment facilities.  Fortunately, there are industrial rainwater harvesting systems that can turn this liability into an asset. Before investing in such a system, here are five things you should know about stormwater:

1. Stormwater can be contaminated by silt, hydrocarbons, nitrates, and other substances. However, the contaminated stormwater can still be reused after proper filtration and sanitation.
2. Harvested stormwater can be treated and used for irrigation, toilet flushing and serve as make-up water for cooling towers.
3. Mitigating stormwater is often a requirement of local municipalities.  This often results in property owners investing in detention strategies that can be quite costly.  Instead of detaining the stormwater (holding it briefly and releasing it slowly to the storm system,) retaining the water on site and treating it for reuse can turn a liability into an asset.
4. Stormwater can run off into rivers, lakes, and streams, taking its contaminants with it. Harvesting this water reduces the pollution that can threaten the plant and marine life living in these bodies of water.
5. Reducing stormwater pollution through collection and filtration not only protects the environment, but it can also save property owners money. Industrial water harvesting systems are an excellent long-term investment despite the upfront cost. Thousands of dollars can be saved on water bills each month thanks to the supply of usable stormwater.

Are you considering a water harvesting system installation? Look for a provider that offers an advanced harvesting system made with the latest technology and durable materials. Ensure that the provider has enough experience, knowledge, and skill when it comes to water harvesting.

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Five Reasons to Have A Greywater Harvesting System

Unlike rainwater or condensate, greywater comes from the sink, shower, process rinse water, or pool backwash. Despite the  origins, it can be a practical and helpful resource used to flush toilets, water the grass and plants, or for  other non-potable applications. Here are five reasons why you should invest in one:

1. Provides a constant water supply – Greywater can provide a consistent supply of water for flushing toilets, which requires an average of 1.28 to 1.6 gallons of water per flush. With the right system, greywater could meet all of your toilet flushing needs. 

2. Reduce reliance on municipal water – Installing a greywater treatment system can reduce the use of potable, municipal water.  This not only lowers your water bill, but impacts the burden on the community’s public water supply. 

3. Ease the burden on sewage system – A greywater harvesting system can reduce wastewater volume going to on-site treatment systems and sewers. So, those systems could work more efficiently, and flooding can be reduced.

4. Compliant with standards for effectiveness and safety – A high-quality system uses cutting-edge greywater filtration,  sanitation and monitoring, treating to a standard that is safe for the public. Then, aesthetic and health concerns are eliminated as you meet regulatory requirements in your community. Consider a greywater harvesting system and filtration skid that are tested on the field and compliant to NSF/ANSI Standard 350.

Save Money and the Environment With Rainwater Harvesting Systems

The adverse impact of the burgeoning population and the extensive pollution caused by non-renewable sources of energy (including fossil fuels, petrol, and diesel), have adversely impacted the environment and ecological habitats to a great extent. It is the responsibility of every individual and business to put in place sustainable practices. Future generations  are relying on current efforts to maintain a healthy planet. One step in the right direction is  the use of a rain harvesting system, which decreases the strain on water resources. A rainwater harvesting system may not only save thousands of gallons of water, but can also save money on utility bills.

 

Reduced Water Costs

 

Due to the logistics of retro-fitting an existing building for rainwater harvesting, the ideal time to consider a system is before the building is built.The implementation of a rainwater harvesting system during the design phase will ensure that the building owners will have the proper infrastructure and space for the water harvesting system.  The use of a rainwater harvesting system can reduce municipal water consumption, saving water and money.

 

Saving The Planet And Improving The Environment

 

A rainwater harvesting system has also been found to reduce the impact of stormwater runoff.  This not only benefits the municipality by reducing stress on the storm systems, but it can also help the environment by preventing harmful runoff from contaminating green spaces.  Rainwater harvesting used for irrigation also promotes the growth of natural plants, combating greenhouse gases and improving environmental sustainability.An up-front investment in water harvesting can provide many benefits for years to come.

A Step-By-Step Guide on Gray Water Harvesting System

Unlike rainwater or stormwater, gray water, or greywater, refers to water that has been “gently used”  from lavatory sinks, showers, baths and light industrial applications and has not yet been treated.  It can be harvested and treated for non-potable application such as flushing toilets, irrigation and cooling tower make-up. Gray water supply can be predictable and steady, resulting in potentially high water savings. However, it must be treated properly to produce a water quality that is safe and adheres to local codes.  A proper greywater system includes the following:

• Collection - When gray water is collected, it must be treated as soon as possible to stabilize and prevent it from becoming septic. Untreated gray water is never stored longer than 24 hours.  The collection vessel should have a sloped or conical bottom, allowing for the tank to be fully drained.

• Filtration –Filtration is one of the most critical steps in gray water harvesting system . In addition to removing hair and lint, the system must be able remove particulates to a level that will allow the sanitation process to be effective.

• Sanitation – After gray water filtration, the water is sanitized for use. Chlorination and ultraviolet sanitation methods may be applied to accomplish this.

• Storage – The method of storage for the treated gray water will depend on how the gray water  harvesting system is used, the supply and demand, and the available space for the tanks. Typically, the storage system is connected to a municipal water source in case there is not enough gray water supply.

• Monitoring – Sophisticated gray water harvesting systems have programmable logic controllers to automate and oversee the whole process of harvesting and storage.