Why It Benefits to Use Diesel Generators

A diesel generator is a reliable and inexpensive option to back up the main power source in the event of a failure or power outage. They are very versatile in use and perfect for small offices, homes or large businesses. However, they can be a little messy and noisy compared to alternatives much as the natural gas generators. Here are a few of the most pleasing benefits of using diesel:

Fuel efficiency

Fuel efficiency is a major benefit that relates to using the diesel generator. The cost and ability to source fuel for the generator can vary significantly. The preferred fuel for most users will be one that can save on operating costs and energy use. The diesel generator is rated high in regards to these points. The initial cost of diesel can be higher than alternatives like natural gas, but the diesel fuel has the ability to run a chosen appliance for a much longer period of time.


A further desirable quality of the diesel generator is the ability to provide a power source that is very stable. The ability to rely on a stable energy is certain to appeal to places like a hospital that needs the constant electrical power for the many machines and devices.

Solidly built

The diesel generator is very dependable and heavy-duty to work effectively in most environments. They have the ability to run continuously for many hours for emergency power or standby power needs. Also, they have no problem with accepting the heavy load over the prolonged period of time. Plus, the life expectancy of this type of machinery is a lot more favorable compared to other options, including the generators powered by natural gas.


Diesel is safer to use than most other types of fuels because it is less flammable. Also, this type of generator is built with no wires or spark plugs, which is very useful to lower the risk of sparks that can cause a fire. In addition, the lack of wires or spark plugs has a further benefit in that the process or maintaining and repairing the generator will be less expensive and less complex.

What are the drawbacks?

Beyond the many benefits, there are also a few drawbacks to consider with the diesel generator. The main one is likely to relate to cost. They are more expensive than most other generators in the market. However, greater fuel efficiency and easier maintenance are likely to cancel out much of the extra outlay. Noise is a further issue. The majority of new models are a lot quieter, but most of the old models are a bit noisy, so not practical in built-up locations. Rest assured your load will be shipped professionally, safely, and timely. heavy haul trucking is our focus and our passion.

Understanding Civil Engineering Consultants & The Merit They Bring To Projects

The central pillar of any project that requires construction is MEP service. The value of MEP is mammoth to an engineer, architect and even the owner of a construction project because they add a significant difference. The complexity and technicality that MEP operations require, mandate the need for knowledge and experience. Only a professional modeler is capable of delivering both.

Understanding The Vitality Of MEP Services

The mechanical, electrical and plumbing requirements of any construction project are encompassed within MEP. An MEP model, therefore, is created by respective engineers who are considered as the technical savants in their fields. They are adept at MEP methodologies and qualified to resolve any complication that arises during building. These are the people who create a safe, working and comfortable environment within a residence or commercial building.

Most often an MEP would be consulted for:

  1. To inspect that all mechanical, electrical and plumbing systems are precisely installed during construction.
  2. To audit the existing systems, identify errors in it, correct the mistakes and improve performance.

Irreplaceable Roles Of MEPs

MEP engineers are an investment that warranty the optimal working condition of any space for the entire lifetime. The specific jobs and responsibilities each endeavour to perform are:

  • Mechanical Engineers are the individuals that make the habitat or environment of the building a comfortable zone. The roles they play are installation and future maintenance of all the heating and cooling systems. Their work results in:
  1. Efficient heating
  2. Sufficient cooling
  3. Proper ventilation
  • Electrical Consultants are the experts who take care of lighting of the project and all electricity needs. Some of the functions they accomplish are:
  1. Active fire alarms
  2. Complete security systems
  3. Suggesting eco-friendly choices such as energy-efficient lights
  • Plumbing Engineers complete every building plan by offering plumbing solutions. They are skilled at recommending and installing:
  1. Gas systems
  2. Water solutions
  3. Sewer arrangements

It is expertly designed plumbing structures that guarantee a correct supply of water and precise transfer of wastage.

Indispensable Benefits Of MEPs

The jobs mechanical, electrical and plumbing engineers accomplish, afford particular advantages to a construction project. The four significant paybacks of employing MEP consultants that prove to be a requisite for every venture are:

  • Design that is effective, operative and seamless. When MEP create systems for development, they make certain that they run for a long time, deliver their worth and are economical.
  • An environment that is healthy, beneficial and supportive. MEPs are known to design and plan buildings which utilise natural daylight and control extreme conditions like moisture penetration. They scheme a residence with an indoor atmosphere that keeps the inhabitants fit and well.
  • Mechanisms that are automated, safe and user-friendly. Homes and buildings use hardware and software that control every corner. These mechanical systems, when installed by MEP, do not glitch during operations and keep the residents protected.
  • A budget that is limited and worth every investment. When MEP are employed for a venture, they remain within the financial boundaries while fixing systems. Furthermore, every installation is the most cost-effective option of all.

Comprehending Industrial Architects

MEPs make a just one category of consultants that are a necessity for a civil construction project. Architects are another. They are the professionals who design the structure of the building while keeping it:

  1. Aesthetically Beautifu
  2. Extremely Function
  3. Completely Sheltered
  4. Not Economically Prohibitive

The era when the same architect developed commercial, industrial and domestic buildings is now gone. A different authority plans each. Industrial architects are specialists who create industrial complexes. A few of the properties that can be designed by them are expanded below.

What Do Industrial Architects Design?

  • Any location where a commercial exchange occurs. This includes:
  1. Banks
  2. Stores
  3. Markets
  4. Warehouses
  5. Office buildings
  6. Exhibition halls
  • A structure that requires infrastructure supporting transportation like:
  1. Bridges
  2. Tunnels
  3. Garages
  4. Airports
  5. Seaports
  6. Fuel stations
  7. Railway stations
  • Centres that manufacture items and products like labs, factories, plants, and mines.
  • They also design power installations such as:
  1. Dams
  2. Fuel storage
  3. Generating plants
  4. Processing and distribution units
  • Some other buildings that can be created by them are press and media centres, communication infrastructure and all commercial facilities.

The Duty Of Industrial Architects

Underneath, we take a look at the key responsibility areas of industrial architects while designing a building:

  1. They develop plans of the project by writing and reviewing specifications.
  2. They are responsible for communicating the ideas to all contractors and assigning the job. This incorporates creating schedules and maintaining them.
  3. Industrial architects also take a supervisory role and ensure implementation of the plans during construction.
  4. They even develop the financial estimates of building, keep an eye on it and forecast any alterations.

The birth of the industrial revolution heralded a new era which necessitated the creation of tailored commercial and industrial spaces. Industrial architects are the brains behind this branch of design and construction. They cater to the demands of the ever-changing industry by applying their know-how and expertise. Without them, enterprises would not have the distinct structure and features required for increased productivity and better efficiency. Without industrial architects, machinery and equipment wouldn’t be laid out precisely to augment processes.

The Role Structural Engineering Companies Play In Building Projects

Who calculates the maximum safe weight of a bridge? Who estimates the wind force a warehouse can withstand in a storm? Who evaluates the endurance of a building in case of an earthquake. The answer to each one of these questions is a structural engineer. From the magnitude of tremors to gale force winds, it is engineering that ensures the durability and complete safety of all structures.

Beyond functional security, civil engineering also defines the efficient usage of all building resources. It is an engineer who calculates the optimal grade of a material that is functional, safe and not economically prohibitive. They perform this task while working in collaborating with architects to ensure the aesthetics of the project are met. Pithily put, engineering amalgamates:

  1. visual appeal
  2. practical function
  3. budgetary resources

A Deeper Understanding Of Structural Engineering

The two principles that guide engineering are mathematics and physics. It is when physical laws are considered hand in hand with empirical research that the strength and capacity of any material can be estimated. Additionally, geometry has to be factored in to determine the soundness of a building. Design and analysis are the core elements of engineering.

The Heavy Responsibility of Structural Engineers

A subset of civil engineers and project management, structural engineers have the responsibility of:

  1. designing large buildings like tunnels
  2. estimating physical integrity of structures like bridges

Their duty is far removed from those of an architect. While architecture is all about size, shape, appearance, and functionality, structural engineers work singularly on technicalities. It is the obligation of a structural engineer to bring the vision of an architect to reality.

The Numerous Role Hats They Wear

Mechanics. Physics. Mathematics. Creative problem-solving. 3D conceptual skill. All of them are abilities that a structural engineer must imperatively have. But the diverse hats they wear are not limited to these capabilities. Structural engineers have a well of qualities that include:

  • Support in Design

They play a crucial role in planning individual elements of a structure and the whole. Their primary function is the design and detailed data about:

  1. Floors
  2. Beams
  3. Foundations
  4. Type of roofs
  5. Wall retention
  6. Quantity of steel
  7. Calculating the stress
  8. Suspension of bridges

It is their designing role that ensures the beam, columns, and foundation can support the load of the whole structure.

  • Analysis Of Material

Technology has given rise to intricate designs that employ an amalgamation of construction material to create modern buildings. Effectively using them and guaranteeing the strength, reliability, and safety of the structure is the task of structural engineers. They analyse the different materials available and decide the specification of each. They estimate the precise and detailed requirement of the substances while keeping in mind codes, regulations and features the client demands.

  • Investigation Of Site

The first step to any construction project is a comprehensive investigation of the site where the building will occur. It is the job of the structural engineer to survey the location. They investigate if the site is suitable for constructions and the earth is apt for the upcoming building.

  • Security of Workers

How stable a building is when faced with static or dynamic loading is one of the most apparent roles of a structural engineer. But the safety element is not just after the project has been built, it is incorporated during construction too. When engineers plan the design, they ensure that the workers, laborers, and visitors to the site are always secure. They make the building less hazardous and hassle-free.

  • Coordination With Others

A project management consultants demands the collaboration of many different professions. It is the onus of the structural engineer to communicate needs and coordinate operations. They have to be in constant touch of:

  1. Engineers
  2. architects
  3. landscapers
  4. environmental scientists
  5. Government bodies and authorities that inspect the building
  • A Managerial Head

The one final cap that structural engineers need put on is that of a manager. It is their chore to check the delivery of every construction material and make sure that it matches the set specifications. They also keep an eye on the equipment required during the building. Furthermore, they supervise and manage all the labour involved on site.

What Training Do Structural Engineers Need?

An undergraduate course in a discipline of engineering followed by professional qualification under the Institution of Structural Engineers. The career demands meeting stringent standards and immense practical experience. Once an engineer gets a foot in the field, they need to train and learn for the rest of their profession. It is vital because the industry is continuously upgrading materials and methods of construction. Any individual who is glad to invest time and dedication to the field will rise high in the sector with exciting projects thrown their way.

It’s An Engineer’s World

Succinctly said, the world of construction and the one we live in is an engineer’s oyster. Without them, we would not have tunnels that break the monotony of traffic or bridges that span kilometres of rivers and oceans. It is structural engineering the dynamically marries physics with mathematics to produce amazing buildings with the best possible design.

Accurate structural assessment guides constructors, and we at Besten are the forerunners in structural engineering design. Our team is equipped to test design efficacy and measure costs. We are the well-known architects and engineers in Chennai who can chalk out the material required for any project while ensuring effective utilization of all resources.

Beyond electrical consultants and civil engineers, we aid creativity and functionality in any building. We strategize structures that are reactive to the transforming demands of every field. We underwrite development of the most seasoned and savvy structural engineers, who collaborate closely with patrons. Browse through our website to know how we deliver on our promises.

How To Convert Prefab Shipping Containers Into Swimming Pools

Every year the heat rises. Every year homes become smaller. Lack of space and the increasing temperatures, make summers a special kind of suffering. Finding a pool filled with fresh, blue water is the only respite to the beating sun. But building a permanent structure in the backyard is a commitment that requires patience, investment, and square footage. Few homes, if any, have all three. A simple solution to this conundrum of heat or pocket is swimming pools made out of shipping containers.

A container is light, secure, durable and costs a fraction of a conventional pool’s price tag. Thus, they make for an excellent way to bond with family and friends during peak heat, while avoiding a dent on your bank account. So, how does one transform a structure that is meant to transport material across oceans into a summer oasis? The answer comes in the form of 5 easy steps.

  • Planning Permission

The first step to modifying a container into a swimming pool is to get the required consent from local authorities. Do due diligence on all guidelines and regulations that may halt construction such as fence building and depth limits. Always get this step out of the way before ordering a shipping container, else you might get stuck with a forty feet structure in your backyard without any water in it.

  • Structural Engineers

Water is fickle. It can be as light as air and as heavy as a rock. Digging a pit, of the exact dimensions of the container, in the ground and fitting in the pool is not enough. It has to be strengthened to ensure that it can bear the force of water. Plus, shipping containers are created to withstand pressure only on the floor and corners. Hence, the second phase of installing a container pool is hiring a firm or individual who has a structural engineering background. They will guarantee that the pool and ground are reinforced.

  • Structural Modification

A shipping container is 2.4 meters deep, and not everyone is comfortable with the same depth for a swimming pool. The third stage of building a container pool is to customise the structure. Decide how deep the pool should be and cut the container to that depth. Furthermore, the edge of the tank should be blunted and a lip attached to them to prevent accidents from sharp ends.

  • Water Tighten

Prefabricated shipping containers are designed in order to avoid water seepage in them, but they are not watertight. In other words, water cannot enter them from the outside, but they can’t hold water inside. In most cases, a container will have a layer of plywood in the inner side. Wood is not conducive to carrying water. Thus, the next phase of converting a shipping container into a pool is to add another layer. An extra layer of steel is welded on the inside to make it watertight. It is then treated for rust and painted on all sides.

  • Installation

The last step is to install the container into the home along with all the accruements. Pump, intake pipes and filters need to be put in which are best done by a swimming pool company. They will advise you on drainage, power and water supply.

For many years, people have been creating a container house when there is a quick need of shelter. Container pools are the next go-to options. They are ideal bases that remain unbeatable in the face of harsh weather conditions and installation issues. Now that the guide to installing a shipping container swimming pool is done let’s take a look at the advantages of it.

Leverages Of Container Pools

  1. Simple Installation: The steps above would have made it clear that building a container swimming pool in any residence is child’s play. Some companies make it even more uncomplicated by selling fully functional units. These swimming pool come with pre-installed systems such as heating and plumbing. All one needs to do is order it, get it delivered and fill it up.
  2. Economical: The most obvious and impactful advantage of shipping container pools is their affordability. Compared to concrete swimming pools, they are dirt cheap because hundreds of containers are put on the second-hand market per day. The high supply of them has reduced their cost drastically. It is not just the initial price that is low; one also saves on structural costs with container pools.
  3. Customisable: For those who want something unique in their backyards, container swimming pools are a godsend. They can be tailored in all shaped and design to create functional and aesthetical pools. Starting from windows installed on the sides for keeping an eye on the kiddies and ending with dividers that turn part of the pool into a hot tub, containers are completely alterable.
  4. Flexibility: A container pool can be movable. Once installed it doesn’t become permanent to that particular spot, necessarily. When switching homes, it becomes easy to take the pool along with you.
  5. Sturdy: A container turned into a swimming pool is welded with prefabricated steel which makes it extremely robust. These shipping vessel pools can even be utilised in cities that see frequent disasters like earthquakes and hurricanes.

5 Benefits of Using Plastic Injection Molding

Plastic injection molding is a highly flexible option to manufacture a wide range of parts. It is appreciated for a variety of reasons, such as its extreme efficiency, great reliability, option to reuse and its ease of use. Let’s take a look at a few of the benefits of using plastic injection molding:

Complex designs

The plastic is subject to high pressure, which is very effective at creating the unique and complex designs. The extra pressure helps to simplify the process of introducing fine detail to any part, as well as making it possible to create the most intricate and complex shapes. Other molding processes that don’t rely on high pressure to mold parts will have a lot of difficulty in creating the most precise parts.

Fast production

Once the initial injection molding is created, the process to make the individual parts is very fast and effective. The fast production means it is one of the most efficient and cost-effective methods for creating the plastic parts. Also, the option to use a single mold means it is easier to produce a lot more parts than other manufacturing methods.

Improved strength

This molding process makes it very easy to inject special types of fillings into the plastic to increase the all-round strength. The extra filler will lower the plastic density at the time of manufacturing, but is very helpful for improving the strength of the item of plastic being molded. This is certain to benefit in industries where it is necessary to have the very strong and durable parts. Also, this is a feature that isn’t offered by offer molding methods.

Using multiple plastic types

The flexible manufacturing process gives the option to use multiple plastic types simultaneously throughout the manufacturing process. This process is called co-injection molding. It is a further option to improve strength and helps to minimize any differences that may be present in the particular type of plastic.

Automated manufacturing

The automated nature of plastic injection molding helps to cut down on manufacturing costs. Once the mold is designed and created, the actual manufacturing process is completed by robotics and machines. However, there is a single operator to manage and control the process. An automated system is very effective at cutting costs. A major reduction relates to the small workforce to operate the machinery. Also, the automation of the mold production using computer aided manufacturing (CAM) or computer aided design (CAD) increases the ability to create the accurate molds.

Why Pipe Locating Is Important in Any Construction Project

Before starting any construction or excavation process, it is important to hire a company for pipe locating. Engaging these professionals will save you time and money and the central focus is avoiding possible damage to both, environment and workers.

In modern and urban cities, underground utilities create a complex and complicated network. Besides pipe location, it’s essential to perform locating of water, sewer, gas pipes and electrical, cable lines. Locating underground pipes is considered as a crucial part of any construction or excavation project for many reasons.

Predicting the location of the utilities can cause serious damage. This situation can occur when workers are guided by old historical records. However, these records may be outdated, leading the worker on wrong assumptions. To provide safety for the worker and the entire environment, new updated information should be obtained. When this type of information is collected, the excavation process can begin.

The professionals who determine the pipe location are using specialized sophisticated equipment, from Ground Penetrating Radar (GPR), underground 3D imaging to CCTV inspections. Along with the latest modern technology, workers should have comprehensive experience and knowledge in utility locating. The least you want is to hire someone who does not have enough experience and does more damage to the utilities and more repair costs.

In the construction or excavation projects often any interruption or delay can happen even in the planning stage. Locating pipes underground can speed up the process by eliminating the chances of damage. By employing pipe location service, you will definitely prevent costly repairs and work disruption. All of this will lead to successfully and timely finishing the project.

If you want to reduce the risks associated with underground pipes, don’t forget that down there electrical or cable lines can also be found. They are more sensitive and cause more damage than underground pipes. The worker may be very careful and still hit one of them. As a result, this will bring a disruption in the electrical supply of many homes and businesses in the surrounding area.

You don’t want to feel sorry for not engaging this type of service. One thing is certain – the benefits that this type of locating brings are great. It is always better to invest in advance before any damage happens.

Contact the leading provider of detection services for government and industry clients. However, as homeowners ourselves, we understand the importance of using the best tools and technicians for your number one investment. They guarantee you will get what you paid for.

Construction Bonding

To provide an expert’s view on construction payment and performance surety bonds, I sat down with Ellen Neylan, the owner of Surety Bond Associates, a WBE surety bond agency and consulting firm that provides specialty surety services to small, minority women and veteran owned contractors.

Often projects presented accompany a bonding requirement – too many times this is seen as an automatic disqualifier to an unbonded GC. Ellen stressed the abundance of options out there, and the importance of differentiating all risk reduction instruments from viable alternatives.

Many GCs are working with their insurance agencies to tackle bondability needs without realizing surety agents are their own specialty that add a different, more precise value. Ellen explained to me the contrast between a surety bond and subcontractor default insurance (SDI), two concepts that can be easily confused. In almost all cases, SDI is very inferior to surety bonding. Surety bonds exist to protect taxpayer dollars and a general contractor’s organizational health, while SDI serves to allow a GC to default subcontractors quickly with no payment protection downstream for anyone. High deductibles are associated with it – and since there is no qualification process to gain this protection, it is much more of a high-risk instrument.

Along with the confusion of bonds and SDI seeming interchangeable, comes a misinterpretation that bonds and insurance in general are comparable. I’ve previously heard the phrase that “Bonds are not insurance-they’re a credit instrument” and Ellen confirmed that in her Bonds 101 workshop, this is an idea that’s represented as fact.

Even though insurance companies can provide bonds, contractors have to qualify for bonding, which makes it quite different than insurance. Anyone can buy insurance if they can afford it, however bonds require an in-depth qualification process that fully vets a firm.

Prior to my conversation with Ellen, I read that many bonding professionals sum up their evaluation of a contractor with the use of “the three c’s: character, capacity, and capital” – and I was interested to hear if this captured her interpretation of the GC review scope. She emphasized that those are definitely the main ideas, however the importance of each area isn’t quite weighted equally in thirds.

The surety typically puts 70% emphasis on financial strength. For the capacity consideration, the contractor’s experience with project management and portfolio of work shape their rating. Some factors that are evaluated include:

– Staff resumes
– Typical project valuation “sweet spot”
– Scope of work
– References with subcontactors, suppliers, and banks

When evaluating the character review, this is a bit more challenging. Ellen rightfully mentioned that you don’t really realize a contractor’s true colors until there’s an issue. Since surety bonds are essentially a partnership between the surety and the contractor, the surety has to feel comfortable that the contractor can help them resolve any problems and deliver on promises. Project success is largely tied to a GC working with the surety so that they don’t have to file a loss.

So once you’ve taken the steps to become bonded – what is required for a firm to take steps to grow that bonding capacity?

Much of growing bonding capacity involves not taking on jobs that are too large for your company’s bandwidth. Preserving as much cash in the company and tightly managing it alongside accurate job cost accounting systems is key. A great CPA is critical to keeping a company in line financially. Surety companies look for detailed financial statements because the accounting needs of construction are very unique from other industries. Building that team of a solid CPA, surety agent, and bank is a powerful trio.

Payment and performance surety bonds can seem confusing, however with a bonding expert’s guidance, contractors are able to realize their full potential and not have to lose out on opportunities from lack of bonding. There are plenty of resources available for organizations looking to become bonded, and a “dead end” is far from how a bonding stipulation should be perceived.

Estimating And Scheduling Construction Work

Construction work is a serious endeavor with millions in costs and more if large-scale. While in progress, each minute is tantamount to spending thousands of dollars so estimating and scheduling work is of the utmost importance and for many reasons. Constructing a house or a mall, the duration of the project has to be estimated so that resources and budgets are not exceeded causing huge loss of money. Starting from pre-construction time, certain tasks called scheduling need to be performed prior to the actual physical execution of the work. Scheduling establishes the relationship of a task to the time it would take to complete.

Creating a Construction Schedule

The most accurate schedule is one where the input is received from everyone involved in the process. Communication and coordination of the team are key elements of a precise construction scheduling. Meetings must be attended and the collection of information are top priorities for accurate measurements. Every team player has to know the other and it is these same members who collectively play roles and collate information that would help with:

  • Create lists that start from the beginning of work like demolition or groundworks up till the fitting of light bulbs.
  • Determining how long it would take these individual tasks to complete need to be estimated as well, without ignoring lead-in times for the material to arrive.
  • Noting down and listing of all administrative tasks like material selections, drawings and designing, budget preparations and contract awarding along with the duration of time these would take.
  • Establishment of the order in which the activities will be executed. Tasks are usually scheduled one after the other in a sequence that makes sense. for example, only when the walls are finished, paint is applied. But it’s not uncommon for some tasks to run alongside. Some even separate activities according to trade contractor.
  • Input from supplier, vendors, and contractors are also required to make the schedule realistic and actual.

The final schedule once formed must be approved by all parties to ensure that it’s in accordance with the information provided. Once satisfaction is received and durations are confirmed, the signed copy of the schedule can even be used as a part of the contract.

The above are tips and recommendations that can help with, for example, working on home renovations and any minor construction work. There are also applications and software available in the market for construction scheduling for self-help enthusiasts who may want to save a buck without hiring professional help.

The Quantity Surveyor

Although professional help is not necessarily required for small-scale personal construction, as mentioned above, but for large-scale, its imperative. This is the person who is responsible for the cost estimations. Quantity surveyors provide owners with details and information regarding all costs and create schedules for the work and all processes involved. They manage finances, budgets, production, dispute resolutions, and even insurance.

A Green Building & The Benefits It Affords – As Advised By Structural Consultants

This century and the next is going to be dedicated to two topics – accelerating economic growth and decelerating climate change. Any change that can help achieve these global goals is a worthy pursuit. From waste disposal management to saving the oceans to reducing the dependence on fossil fuels, there is an N number of ways to promote a greener living. For a civil consultancy, it is advocating green buildings. We take a look at the multiple advantages that emerge from eco-friendly construction, in this feature.

What is eco-wise building?

A construction project that factors in environmental conditions at every phase of building is called a green construction. The stages where the ecological effects are borne in mind are:

  1. Design
  2. Implementation
  3. Operation
  4. Maintenance

It is not the just impact of the entire building that is thought over, but how to utilise space, make the structure energy and water efficient while maintaining the internal atmosphere. When compared with a conventional building, a green one is created with the concept of integration.

How do Green Buildings Benefit Us?

The first leverage of eco-wise buildings is that the effect is not isolated. Constructing structures that are not harmful to the planet has a universal result. These buildings help:

  1. The residents
  2. The stakeholders in the industry
  3. The entire community of humankind

Let’s dive into how they profit each of these three groups.

  • Light on the Pocket

For a house or building that has a lifespan of 20 years, a 2% investment in green design translates to saving worth ten times the initial investment. These are conservative figures proved by recent studies and research. The reality is far more profitable because the average span of a building is about 60 years.

Money is saved in massive amounts from the very first day of green building and it applies universally from simple greenhouses to commercial complexes to offices. This benefit supports residents of the building and stakeholders.

  • Productivity is Amplified

When green buildings were studied in Seattle, it showed that there was a drastic reduction in absent employees – about 40%. Another research resulted in even more surprising statistics. There was a 30% decrease in the sick leaves taken by workers. The change was not merely in the number of working days, but also the net revenue of companies. For every employee, there was a 10% increase in profit. Furthermore, hiring workers became more comfortable and retention rose.

The gist is that when people live and work in buildings that keep health and comfort as a priority the productivity is augmented. As a result, the advantage is for the entire community.

  • Wellbeing is Better

Reports state that when the indoor environment of buildings was tested, it exhibited air pollution 2 – 5 times more than outside. The reason for the pollutions was:

  1. Construction material
  2. Furnishing material
  3. Naturally occurring volatile organic compounds

All three affected, severely, the quality of water in the building and air. When construction is done with the health of the residents as a preference, it eradicates injurious particles that are present in things such as:

  1. Paints
  2. Solvents
  3. Carpets
  4. Cleaning Products

Improving and purifying the air and water of a building, therefore, aids the inhabitants.

  • Reduction of Wastage

Green architecture became popular because it appropriated renewable material or re-used substances such as salvaged debris from demolition, sand or burnt coal. When buildings employ non-toxic, recycled wood, natural plant material, and other sustainable elements, the waste produced sees a sharp decline. It is one of the most effective methods for decreasing waste. This particular advantage impacts residents, stakeholders, and the community.

  • Resourceful Uses of Resources

It is not just construction material that is applied in a smart sense in green buildings. Environmentally friendly concrete, bamboo, straw or recycled metals are only one pillar of resourcefulness for eco-wise structures. There are two other areas where ingenuity is appropriated:


Environmentally conscious projects put into practice wind energy, hydropower, and solar energy to generate electricity and heat. The utilisation of renewable power improves the quality of air and makes consumption more efficient when compared to traditional buildings.


The objective of every eco-construction is to waste nothing. As a consequence, even water is recycled. The simplest example is storage of rainwater which is used to water plants and toilet flushes.

  • A Better World

The list of benefits accrued from constructing and living in buildings that are gentle to the planets can go on for pages. All of them lead to one goal- a better world that is also safe. Every leading structural expert and Civil consultants advises incorporating at least one green factor, these days because they impact every soul on Earth. Be it employing solar heater or bioenergy; sustainable options have positive results. All of which contribute in some part to the preservation of the environment.

Waterproofing Solutions in Construction

There is a statistic often quoted in the construction industry: waterproofing makes up 1.8% of the total construction cost, but accounts for 83% of building defect complaints. Making sure to understand the waterproof aspects of any building project is vital. Corrotech Construction Chemicals has years of experience in fixing waterproofing problems, but more importantly helping people by providing the right solutions.

Waterproofing in construction is a procedure by which a structure is made resistant to damage by water. Waterproofing is the formation of a resistant barrier which is designed to prevent water from entering or escaping from various areas of a building structure. Internal sections that are waterproofed include shower recesses, laundries, bathrooms, etc. Whilst external areas waterproofed extends to balconies, podiums, retaining walls, roofs, swimming pools and.

Basic waterproofing and covering design incorporates three general steps to ensure a watertight and environmentally sound solution:

  1. Make sure to understand the water sources likely to be encountered.
  2. Design a system to prevent leakage from these sources.
  3. Finalize the designed system by properly detailing each individual envelope component into adjacent components.


In construction, a building or structure is waterproofed with the use of membranes to protect contents underneath or within the structure.

Any building or structure needs waterproofing solutions as concrete itself will not be watertight on its own. The conventional system of waterproofing involves ‘membranes’. This relies on the application of membrane layers that act as a barrier between the structure and the water, which prevents the passage of water.

Over the past decades, the concrete construction industry has had technological advances in waterproofing materials. These advances include integral waterproofing systems as well as more advanced membrane materials.

Furthermore, these new materials like the Corrotech Coatings seek to overcome shortcomings in older methods such as PVC. In general, new technology in waterproof membranes relies on polymer-based materials that are highly adhesive to produce a seamless barrier around a structure.

CCC waterproofing range offers various waterproofing solutions such as bitumen, acrylic, and polyurea-based, as well as cement based options. In their range, they have product and systems for waterproofing of concrete and masonry below-the-ground structures. This includes basements, retaining walls and foundations.