Waste Management in Qatar

Waste management is one of the most serious environmental challenges faced by the tiny Gulf nation of Qatar. mainly on account of high population growth rate, urbanization, industrial growth and economic expansion. The country has one of the highest per capita waste generation rates worldwide of 1.8 kg per day. Qatar produces more than 2.5 million tons of municipal solid waste each year. Solid waste stream is mainly comprised of organic materials (around 60 percent) while the rest of the waste steam is made up of recyclables like glass, paper, metals and plastics.

Municipalities are responsible for solid waste collection in Qatar both directly, using their own logistics, and indirectly through private sector contract. Waste collection and transport is carried out by a large fleet of trucks that collect MSW from thousands of collection points scattered across the country.

The predominant method of solid waste disposal is landfilling. The collected is discharged at various transfer stations from where it is sent to the landfill. There are three landfills in Qatar; Umm Al-Afai for bulky and domestic waste, Rawda Rashed for construction and demolition waste, and Al-Krana for sewage wastes. However, the method of waste disposal by landfill is not a practical solution for a country like Qatar where land availability is limited.

Solid Waste Management Strategy

According to Qatar National Development Strategy 2011-2016, the country will adopt a multi-faceted strategy to contain the levels of waste generated by households, commercial sites and industry – and to promote recycling initiatives. Qatar intends to adopt integrated waste hierarchy of prevention, reduction, reuse, recycling, energy recovery, and as a last option, landfill disposal.

A comprehensive solid waste management plan is being implemented which will coordinate responsibilities, activities and planning for managing wastes from households, industry and commercial establishments, and construction industry. The target is to recycle 38 percent of solid waste, up from the current 8 percent, and reduce domestic per capita waste generation.

Five waste transfer stations have been setup in South Doha, West Doha, Industrial Area, Dukhan and Al-Khor to reduce the quantity of waste going to Umm Al-Afai landfill. These transfer stations are equipped with material recovery facility for separating recyclables such as glass, paper, aluminium and plastic.

Domestic Solid Waste Management Centre

One of the most promising developments has been the creation of Domestic Solid Waste Management Centre (DSWMC) at Mesaieed. This centre is designed to maximize recovery of resources and energy from waste by installing state-of-the-art technologies for separation, pre-processing, mechanical and organic recycling, and waste-to-energy and composting technologies. At its full capacity, it will treat 1550 tons of waste per day, and is expected to generate enough power for in-house requirements, and supply a surplus of 34.4 MW to the national grid.

Future Outlook

While commendable steps are being undertaken to handle solid waste, the Government should also strive to enforce strict waste management legislation and create mass awareness about 4Rs of waste management viz. Reduce, Reuse, Recycle and Recovery. Legislations are necessary to ensure compliance, failure of which will attract a penalty with spot checks by the Government body entrusted with its implementation.

Improvement in curbside collection mechanism and establishment of material recovery facilities and recycling centres may also encourage public participation in waste management initiatives. When the Qatar National Development Strategy 2011-2016 was conceived, the solid waste management facility plant at Mesaieed was a laudable solution, but its capacity has been overwhelmed by the time the project was completed. Qatar needs a handful of such centers to tackle the burgeoning garbage disposal problem.

Ingredients of Environmental Sustainability

Global interest in environmental sustainability is on the rise. Businesses and individuals are making efforts to engage in more environmentally conscious practices, thanks in part to a growing worldwide population and dwindling natural resources. Ultimately, sustainability is the practice of finding long-lasting methods of maintaining our existing quality of life while still preserving the environment and natural resources.

Proponents must consider all aspects of environmental sustainability for it be successful. Additionally, eco-conscious thought must be applied to multiple professions to achieve deep-rooted results. Here are three ingredients to ensure the continued success of environmental sustainability.

Economic Incentives

Everyone knows change can be difficult. Making the shift toward more eco-friendly practices is no different. One way to initiate this change is through financial incentives. Money is an essential factor for families and companies. If sustainable options and practices are too expensive the majority of the population can’t afford to implement them, the environmentally-conscious movement will come grinding to a halt.

Environmentally-friendly technology often carries higher upfront costs but pays off through long-term benefits, both to the environment and to individuals. Additionally, companies that invest in environmentally conscious technology can potentially market to a broader range of consumers with similar interests and values.

When considering options to follow more sustainable practices, consumers need to set specific goals they would like to achieve and define their plan of action. This will also help maintain perspective and keep the focus on the long-term incentives, which will keep everyone motivated to continue down the road to sustainability.

Environmental Protection

Another key factor in environmental sustainability is protecting and preserving the environment. Part of this practice includes sustainable use and management procedures. While specific materials may be renewable over time, overuse can deplete these resources and lead to shortages. Industry professionals must give careful consideration to planning how, when and in what quantity resources will be used.

Surprisingly, several sustainable methods exist to renew depleted environmental resources in a fast and environmentally conscious manner. Agricultural practices often strip fields of necessary minerals and nutrients while leaving behind harmful inorganic residuals from fertilizers.

Naturally occurring microorganisms will eventually restore the soil’s nutrients and neutralize noxious compounds, though this process takes a long time. Bioremediation can expedite this process. Industry professionals can introduce higher numbers of the naturally occurring microbes and then create their optimal living conditions by varying the amount of water and food they have available.

Once the harmful pollutants are neutralized, farmers can resume planting operations. In addition to bioremediation, sustainable agricultural practices include rotating crops and using cover crops. Rotating crops and using cover crops can help reduce the occurrence of weeds and the impact of pests. In turn, farmers can use less fertilizer and maintain soil health for more extended periods.

Fostering interest in sustainability at a young age will encourage future leaders

Education

Without proper education, the general public won’t understand the importance of sustainability. This may lead to a decreased demand for sustainable products and procedures, which will foster growth in non-sustainable markets and practices. Future generations will then be left with the task of preserving and repairing the environment.

Fostering interest in sustainability at a young age will encourage future leaders to create innovative solutions to meet the current demands of society through unconventional and eco-conscious means. The future youth will also need the proper educational background to develop the tools they need to cultivate these solutions.

Environmental education also helps adults understand the impact their choices have on themselves and society. Uneducated adults may not recognize their choices to pollute or use toxic chemicals are degrading the local water supply for their neighbors or are harmful to their health. Once they understand the full weight of their decisions, they will be able to make the most informed choices.

With proper management and forethought, environmental sustainability can be fully achievable in our society today.

A New Form of Ecotourism in Cyprus

Ecotourism has gained popularity as different states seek sustainability. It was one of the millennial goals at the global level, and many states have invested money and ideas into the project. Cyprus has not been left behind and has done a lot to promote a new form of ecotourism in the country. If you are planning to obtain a Cyprus immigration with One Visa, their agents definitely mention a few things about ecotourism in Cyprus. Now that you are reading this publication, you have come to the right place to get insights on a new form of ecotourism.

Guided Walks

Cyprus has a plethora of trained guides to lead you on nature walks. You can easily choose the destination from a list of many depending on what you want to view and experience. Some are best suited for the family while others are suited for explorers. For walks and expeditions in the forest and on the beaches, the guides will explain all the regulations that seek to protect the habitat by leaving it as natural as possible. Unfortunately, Cyprus’s government does not allow collection of souvenirs and artifacts.

Cyprus Village Tours

Cyprus still has people living in villages in rural areas. However, the villages are becoming smaller by the day, and the government is encouraging their growth. This is one way to preserve the original culture of the Cypriot people. The number of people who can take bus tours to the villages is highly regulated. If you would like to visit these villages, make sure that you book well in advance and follow the given regulations.

Marine Tours

Cyprus is an island and has breathtaking and clean beaches. The marine department is obsessed with maintaining the original form of both the beaches and the marine life. However, this does not mean that people cannot go to visit the marine life. The country offers guided tours to the beach, shallow sea and deep sea. Some of the best scenery can be found at the untouched shipwrecks and with the marine life that dwells in and around the shipwrecks. The diving tours are guided and regulated by the government to make sure that the untouched environment is maintained.

A breath-taking natural attraction in Cyprus

Preserving the Historic Sites

Any tour in Cyprus cannot be complete without touring the historic and cultural ruins. However, have you ever wondered how these sites still exist or why they get recognized all over the world? It has taken great efforts to protect them and let nature take its course. Even though Cyprus has modern architectural buildings, none has interfered with these cultural and historic sites. They spread all over the island and carry a rich history for all people to enjoy.

Conclusion

Finally, it is worth mentioning that Cyprus has zoos and modern parks that protect indigenous plants and animals. The public is allowed to visit under certain regulations. The government strives to preserve the country’s tourist attractions through the employment of ecotourism strategies. If you visit the country as a tourist or an expat, remember to check the regulations that govern ecotourism.

Towards Sustainable Pharmaceutical Management

The pharmaceutical industry has a substantial impact on the environment, especially when the materials used to make them and the chemicals that comprise make their way directly into the environment. The pharmaceutical industry at large as well as average consumer can take steps to make of use of medicine more sustainable through both significant and relatively minor changes.

Medicines and the Environment

The drugs that we consume naturally enter our environment as our body turns them to waste. This issue becomes exacerbated when people intentionally dispose of unused medicine by flushing it down the drain.

Although our water treatment systems are designed to take contaminants out of our wastewater before we re-introduce to the natural environment, some still get through. These contaminants, which include those in medications, can damage the ecosystems they end up in.

High levels of estrogen in waters due to birth control, for example, can hamper the ability of fish to reproduce, reducing their population size. Once those chemicals find their way into the water, they enter the food chain and eventually impact animals that live on land too, including humans.

Plants will absorb the chemicals from medications. Animals then eat these plants or drink the water and ingest the contaminants. Humans might drink the water or eat the plants or animals, making pollution from pharmaceuticals a human health hazard as well. This problem becomes worse in the summer when livestock such as cattle require two to three times as much water as they do during other times of the year.

Proper Disposal of Medicines

If you have unused medications that you need to get rid of, don’t flush them down the drain or throw them straight into the trash. The U.S. Food and Drug Administration (FDA) recommends one of several other options for the safe and sustainable disposal of medicines.

Some communities have drug take-back programs that the Drug Enforcement Administration (DEA) approves. Some pharmacies also allow you to mail in or dispose of unused medications at kiosks. The DEA also organizes a national drug take-back day.

Although certain medications have recommendations on the label to flush them, you can dispose of the majority of them in your regular trash at home. The FDA recommends mixing them with something unpalatable such as dirt, kitty litter or coffee grounds in a plastic bag that you can seal. This disguises the drugs and prevents pets from getting into them. You can then throw the bag away.

If you are a throwing away a prescription medication container, be sure to scratch out all potentially identifying information to protect your privacy and identity.

Using Medicines More Sustainably

Another option for reducing the impact your use of medicine has on the environment is to use less of it or use more environmentally friendly medications.

To use less medicine, only use it when you truly need it and try substituting natural remedies for pharmaceuticals. Reach for naturally derived treatments such as essential oils, vitamins, herbs or a cup of hot tea. Always consult with your doctor before changing your medication regimen.

As a long-term strategy, regular exercise and a healthy diet can do wonders in improving your overall health and decreasing your need to take medicines.

Sustainability from the Industry’s Perspective

Of course, making the pharmaceutical industry more sustainable isn’t the sole responsibility of the consumer. The industry can also change its practices to manage pharmaceuticals in a more environmentally friendly fashion.

One aspect of this involves energy use. The manufacturing and transportation of medications can be extremely energy-intensive. By using energy more efficiently and using cleaner energy, drug companies can reduce their environmental impact.

Pharmaceutical industry can change its practices to manage pharmaceuticals in a more ecofriendly manner.

These corporations can also make an effort to include more eco-friendly substances in their medications. While they may not be able to remove every non-natural chemical from their products, they can offer greener alternatives to consume and look into reducing the presence of damaging substances as much as possible.

This applies not only to the organizations closest to the consumers but to the entire supply chain.

Medications are often vital to our health, but it can also have a negative impact on the health of our environment. Taking steps to manage pharmaceuticals more sustainably can enable us to protect our own well-being as well as that of our environment.

Waste Management in Sweden: Perspectives

Sweden is considered as a global leader in sustainable waste management and in the reduction of per capita carbon footprint. The country consistently works to lower its greenhouse gas emissions, improve energy efficiency and increase public awareness. Over the past 10 years, Sweden developed methods of repurposing waste, so less than one percent of the total waste generated in the country makes it to landfills. To accomplish this, the country changed their perspective of garbage.

Increase Recycling

Recycling is a part of Swedish culture. Residents regularly sort recyclable materials and food scraps from other waste in their homes before disposal. This streamlines the recycling process and reduces the effort required to sort large volumes of waste at larger recycling centers. As another way to promote recycling, the Swedish government created legislation stating recycling centers must be within 1,000 feet of residential areas. Conveniently located facilities encourage citizens to properly dispose of their waste.

Repurpose Materials

Citizens are also encouraged to reuse or repurpose materials before recycling or disposing of them. Repurposing and reusing products requires less energy when compared to the recycling or waste disposal process. As Swedes use more repurposed products, they reduce the volume of new products they consume which are created from fresh materials. In turn, the country preserves more of its resources.

Invest in Waste to Energy

Over 50 percent of the waste generated in Sweden is burned in waste-to-energy facilities. The energy produced by these facilities heats homes across the country during the long winter months. Localized heating — known as district heating — has improved air quality throughout the nation. It’s easier and more economical to control the emissions from several locations as opposed to multiple, smaller non-point sources.

Another benefit of waste-to-energy facilities is that ash and other byproducts of the burning process can be used for road construction materials. As a whole, Sweden doesn’t create enough waste to fuel its waste to energy plants — the country imports waste from its neighbors to keep its facilities going.

In the early 1990’s, the Swedish government shifted the responsibility for waste management from cities to the industries producing materials which would eventually turn to waste. To promote burning waste for energy, the government provides tax incentives to companies which make more economically attractive.

Impact of Waste-to-Energy

Although Sweden has eliminated the volume of trash entering landfills, they have increased their environmental impacts in other ways. Waste-to-energy facilities are relatively clean in that most harmful byproducts are filtered out before entering the environment, though they still release carbon-dioxide and water as their primary outputs. On average, waste-to-energy plants generate nearly 20 percent more carbon-dioxide when compared to coal plants.

 

waste-management-sweden

Coal plants burn and release carbon which is otherwise sequestered in the ground and unable to react with the earth’s atmosphere. Waste-to-energy facilities consume and release carbon from products made of organic materials, which naturally release their carbon over time. The downside to this process is that it frees the carbon from these materials at a much faster rate than it would be naturally.

The reliance on the waste-to-energy process to generate heat and the tax incentives may lower Swedish motivation to recycle and reuse materials. The country already needs to import trash to keep their waste-to-energy plants running regularly. Another disadvantage of this process is the removal and destruction of finite materials from the environment.

Even though Sweden continues to make strides in lowering their environmental impact as a whole, they should reevaluate their reliance on waste to energy facilities.

Recycling of Lead-Acid Batteries in Developing Countries

Lead-acid batteries (also known as LABs) are a common item in our daily lives. Once the lead of the battery is timed out, we have no option but to dump it because it has no use for us anymore, but the copper plates in the battery remain reusable which can be used for recycling. There are some disagreements about the benefits of recycling battery, say alkaline battery, over simple disposal because the mercury in the battery no longer exists and the disposal material is abundant and non-toxic. But for automotive batteries the scenario is different in terms of benefits. The recycling of this type of battery holds both economic and environmental benefits.

The reusable material from the used battery is removed and recycled which reduces the needs for raw materials which is originally imported from abroad. It creates a balance payment and cost. In addition to this there can be considerable environmental impact during mining processes such as emission from smelting of sulfide ore, copper, nickel, and cobalt and this can be eliminated if recycling can be introduced.

Dangers of Lead-Acid Batteries

LABs generally consist of both sulphuric acid and large amount of lead which is not only corrosive but also a good carrier for soluble lead and lead particles. Lead is highly toxic metal which causes a wide range of adverse health effect especially on young children. If one gets expose excessively to lead it can cause damage to brain and kidney, impair hearing, and can led to various other associated problems. On an average an automobile manufactured contain about 12kg of lead, in which about 96% of lead is used in lead acid battery and remaining 4% is used in other applications like wheel balance weight, protective coating and variation dampers.

Both lead and cadmium are harmful for human health and environment. This toxic substances seeps into the soil, groundwater and surface water through landfill and also releases toxins into the air when they are burnt in municipal waste incinerators. Moreover cadmium can be easily absorbed by the pant root and get into the fruits, vegetables, and waters are consumed by animals and human beings, they can fall to prey to a host of ill effects. Studies have shown that nausea, excessive salivation, abdominal pain, liver and kidney damage, skin irritation, headaches, asthma, nervousness, decreased IQ in children, and sometimes even cancer can result from exposure to such metals for a sufficient period of time.

Need for Effective Control Measures

In a battery recycling plant, effective control measures need to be implemented, both to protect the health of workers and to prevent pollution of the environment. Good plant design, with reduction of the potential for the emission of contaminating substances is of utmost importance and the newer smelting processes are inherently much cleaner than traditional blast furnaces.

Pollution abatement technologies, including the treatment of exhaust gases and liquid effluents, need to be installed. Those mostly exposed to releases within the plants are the workforce. Control measures such as maintaining minimum standards of air quality within the works, medical surveillance of employees, use of protective equipment, and provision of conditions of good hygiene in general, is necessary to avoid occupational lead exposure. However, few government/non-governmental steps have been taken yet; rather this practice is a traditional trading system as prevail in the society.

Positive and Negative Impacts

In developing countries such as Bangladesh, recycling or reusing of used lead-acid batteries has both positive and negative impact on environment. Positive impact is that, if battery is recycled in proper and in sustainable manner it saves environment from toxic material of battery, otherwise battery waste is dumped into the landfills. Negative impact is that if recycling is not done in sustainable manner emits gases produced from battery recycling has adverse impacts on environment and human being.

In a battery recycling plant, effective control measures are required to safeguard public health and environment.

Direct recycling process should be banned as it has adverse impact on environment. As it is an illegal process, shopkeepers perform this process in hidden way. Government should impose the law and regulation strictly in this occurrence. This information can be used for advertising material highlighting the environmental benefits of recycling or reusing encourages the purchasing of old lead acid battery. It will accelerate the selling rate of old battery.

Importance of Awareness

Necessary steps should be taken to increase awareness about environmental impacts of used lead acid batteries. Proper instruction should be provided among the general mass. It will also increase reusing of old battery. Battery regeneration is a unique process specially designed to revive the lost capacity of batteries and give priority to choose secondary battery. Battery Reuse Centre can be developed for effective reuse and recycle.

The aim to divert reusable battery, donated by the public, which often could have been destined for landfill and instead provides a much needed source of low-cost battery to those in need. The battery reuse service encourages volunteer involvement and trainee placements in all aspects of its operation. Awareness program (posters, pamphlets, TV & radio commercials, road-shows, website, exhibitions, talks), infrastructure, information center, tax rebates for manufacturers should be taken to increase recycling or reusing of old battery.

5 Actionable Tips to Use More Renewable Energy

The world doesn’t seem to stop when it comes to consuming energy. As each country experience growth and development as a society, their needs for power increases to keep up with the pace of their expansion. The process is a natural one.  It’s even socially encouraged, but that doesn’t change the fact that it takes a toll on our planet. More of the world resources are exploited and processed to become fuel.

While denied by many of these industries for a long time, the ugly side of energy consumption has been exposed for the whole world to see. It has increased the awareness about the need to embrace alternative energy and waste solutions that are renewable and cleaner to avoid contamination and slow down the degradation of our many natural ecosystems.

Many of the initiatives to use clean energies are embraced in multiple countries. Some of them are backed by governments and private industries looking to preserve our planet and fix some of the damage caused by our constant demands of resources. Many people believe that individual efforts don’t count. The fact is that every single bit of help they can get adds up a lot. Here are five actionable tips you can follow to make proper use of renewable energy on your premises:

1. Embrace Solar-Powered Technologies

If you haven’t realized it yet the sun is one of the most powerful energy sources in the world and no one can charge to use it. This is why many developers focused on creating technology that makes the best use of the power delivered by the light and radiation offered by the main star in our solar system.

Nowadays, you can get solar-powered vehicles, and solar panels to distribute energy at your home. Such technologies can be a bit expensive but is durable as nothing else in the market, plus it is a one-time investment at best!

2. Crowdfund Clean Energy Projects

Many communities are willing to go green and use clean energy sources when they are presented the right project. Most of the times the neighbors’ just need to see a well-laid plan explaining why using renewable energy sources will be more affordable for them in the long run.

A solar-powered community project in Laos

The environmental angle can also be helpful, especially for those homeowners that live close to natural reservoirs and wish to keep the value of their properties by safekeeping the environment.

3. Support the Society of Concerned Scientist

This is an amazing initiative to get businesses and the world to become more educated and use more renewable energy.  I am not affiliated with the society at all, but it may be one of the most actionable ways to help the environment because they have built up a lot of support and assets.

Check out what they are doing here.

4. Use Water-processing Technology

Many households and modern housing projects can make use of this technology to recycle the water sources they use and avoid the unnecessary waste of such vital liquid.

The basic principles of this initiative require investment in processing plants and large tanks that can either be installed on the foundations of your home or at the side of it. Your house will always have clean running water, and you won’t take much from the natural sources near your place.

5. Wind Power for Home or Business

Many locations around the world are using wind-powered turbines to generate electricity, and it has become a business opportunity for many entrepreneurs around the world. The plants are easy to install, and the energy is very cheap to produce.

Wind-powered energy has generated an excess of power in certain locations such as China, Germany, Australia and some regions on the USA with these plants selling they’re overproduced to regular energy plants. The power provided by these alternatives is cleaner than most and very easy on a family budget.

Product Life-Cycle Assessment: Closing the Loop

product-life-cycle-assessmentIf you’re interested in green and environmental issues you may have heard the phrase ‘life-cycle assessment’ in relation to a particular product. It can be difficult to ascertain exactly what this life-cycle assessment involves – so we’re hoping to shed some light on the process, the different types of assessment that take place and explain what’s involved with each step.

A look at the bigger picture

Essentially, a product life-cycle assessment takes an overall view of that item’s impact on the environment – and in doing so, offers a true picture of how green that product really is. The aim is for consumers, manufacturers and policy makers to be given a true environmental picture of any product.

Although it’s an example that divides the opinion of environmentalists around the world, the Toyota Prius provides an interesting picture of why the product life-cycle assessment is required in a world driven by a company’s desire to be seen as green. The Prius is an electric-hybrid car which Toyota claims delivers an impressive 60 miles per gallon of fuel – a statistic that puts it as a firm environmental favourite.

However, there are claims that the construction methods used to create the batteries that power the Prius are hugely detrimental to the environment – with some sources saying the manufacturing plant impacts the environment so greatly that by the time a Prius is driven from the showroom – it’s already had the environmental impact it would take any other car 1,000 gallons of fuel to match.

What’s the verdict?

So, is the Prius good or bad? That’s not for us to decide – and we’re not suggesting one way or another, we’re simply using this as an illustration of how complex any environmental consideration can be in a product with such an intensive manufacturing process and prolonged lifespan. At the other end of the calculation you’d have to consider how long the Prius will run for – and whether that balances a supposedly negative building method.

Ingredients of product life-cycle assessment

The assessment is ordinarily broken down into different stages:

Extraction and processing of raw materials

This is a full understanding of the journey from source to point of manufacture that the building blocks of any product take. For example, in the manufacture of a table you would begin by looking at the trees that provide the wood, the logging process that takes them from forest to timber yard and the impact of the machinery used throughout that process.

You would repeat this process for every raw material that goes into the table’s manufacture.

Manufacturing

Next comes the manufacturing itself – if machinery or any industrial process is used to piece our table together then resources used in that process must be considered when we look at the overall impact of the product on the environment.

Packaging

The packaging that a product is delivered in is effectively another product in itself. Although unlikely in our table example, it’s not uncommon for extravagant packaging to represent 10-20% of a product’s recommended retail price. Curtis Packaging, an award-winning UK based sustainable packaging company suggest manufacturers pay careful consideration to the impact of packaging on a product’s overall green credentials – from raw materials to the point of disposal, the packing that adorns your product can have serious environmental considerations.

Marketing

At first glance you could be forgiven for thinking marketing a product comes with no environmental impact – but you’d be wrong. From the printing of advertising materials – to the sales team’s 20,000 annual miles in company vehicles – there can be a lot of resource put into any marketing process. However, measurement is no mean feat – companies can find it difficult to differentiate between their overall carbon footprint and that associated with any one product.

Product use, re-use and maintenance

This is where the impact of a product moves from the manufacturer and into the hands of the consumer. What does typical use look like? How long is a product being used for? Does one person’s use vary compared to another’s? For our example table, the answers could be fairly simple – on the other hand, there’s a huge amount of variation when you look at a broad range of car drivers.

Packaging that adorns your product can have serious environmental impact.

Packaging that adorns your product can have serious environmental impact.

For any product that requires maintenance, the LCA just became much more complex (again!) – just as packaging represented an entirely separate product that requires its own assessment – a similar process is required when a car receives a tank of fuel, a top up of coolant, brake fluid, spark plugs, brake pads… hopefully you get the picture (hint – it’s complex and sprawling!)

However difficult it might be to anticipate, it’s an environmental imperative that big industry is aware of the impact they have – even when their product has left their hands.

Recycling, disposal and waste at the end of the product’s life

From pizza boxes to old cars, it’s easy to think of their job as being done when they’re waved off to a recycling bin or breaker’s yard – but environmentally this could just be the beginning of their impact.

In terms of recycling – the effort and impact of the process must be outweighed by the benefit of the salvaged material, it’s often in life-cycle assessments that decisions are made around what is worth recycling – and what should be destined for landfill. If landfill is the ultimate resting place for any product, what does the deterioration process look like and what does that mean to the environment in the short, medium and long-term?

Then, to bring the assessment cycle full circle – any product that can be processed and re-used re-enters the assessment cycle back at the extraction and processing of raw materials stage…

Ultimately, what is the life-cycle assessment done for?

There’s no one reason that a life-cycle assessment is done. For some companies, they’re keen to explain the full back-story of the product. For others, it can be an exercise in understanding the full process and highlighting any areas that can be financially streamlined – it certainly provides a solid baseline from which improvements can be made.

For the most environmentally ethical companies, the life-cycle assessment gives a true picture of the impact they have on the well-being of the planet – and offers a chance to get a full and honest picture of the moves they and their partners can make in creating a product that fulfils the requirements of the environment – as well as those of the customer and shareholders.

Unending Benefits of Solar Street Lights

solar-steer-lightsSolar power is getting increasing popularity as a dependable source for street lighting all over the world. Some of the benefits associated with solar street lights include reduced dependence on conventional energy, conservation of energy and less reliance on the national grid. In countries experiencing abundance of sunlight, solar lights are the best option to illuminate the streets, garden, parks and other public spaces.

Nowadays, solar street lights are powered by PV panels, in-built battery, LED lights and smart sensors, all integrated into a single compact unit. Solar LED street lights have emerged as a cost-effective and environment-friendly to light up roads and public spaces. LED lights are widely acknowledged for energy conservation, are long-lasting and good-looking, and are maintenance-free. These characteristics make LED-base solar street lights well-suited for commercial as well as domestic lighting applications.

Key Features

A modern solar street light has embedded solar panel, inbuilt lithium-ion batteries, battery management system, night and motion sensors as well as automatic controls. The fully automatic device comes with LEDs, inbuilt and replaceable Lithium-ion battery and passive infrared (PIR) sensors. A typical solar street light is weather-proof and water-resistant, has low insect attraction rate and low glare and has a longer life.

The embedded solar panel converts solar power into electrical energy which is stored in the inbuilt battery, and used for dusk-to-dawn lighting operations. The main innovation of modern solar street lights is the battery management system which is facilitated by the presence of night and motion sensors. During the first 5 hours of night, the system works at average lumens brightness. Subsequently, the intensity of the light reduces till dawn or until PIR sensor is activated by human movement. When people are within a certain radius away from the light, it automatically turns to its full brightness. This smart feature makes solar street lights device a perfect combination of renewable energy and energy efficiency.

Solar powered lights by Deelat Industrial has been tried and successfully tested in a wide variety of domestic and commercial applications. The device is well-suited for lighting up streets, courtyards, gardens, parks, compounds, boundary walls, car parks etc. in an eco-friendly and cost-effective manner.

Unending Benefits

Due to off-grid nature of solar street lights, solar street lights incur minimal operational costs. Such lights are wireless in nature and are independent of the utility company. Compared to conventional street lights, solar street lights require almost zero maintenance. Due to the absence of external wires, these lights do not pose any threat of accidents like electrocution, strangulation and overheating. Infact, solar lights illuminate the streets throughout the night irrespective of power cuts and grid failures.

Solar-powered lights are a perfect eco-friendly green lighting solution

Solar-powered lights are a perfect eco-friendly green lighting solution

Solar street lights are a delight for environmentalists around the world as it can provide significant lowering of carbon footprint of individuals, homes and businesses. In other words, solar-powered lights are a perfect green lighting solution. In terms of cost, solar street lights are a better investment than conventional street lights if the capital as well as O&M costs are considered.

Barcode as a Tool to Reduce Plastic Pollution

plastic-worldThe measures implemented by the current recycling model, which are focused on producer responsibility and final consumer awareness, are not enough to prevent the continued accumulation of plastic waste in the oceans. For example, the Mediterranean Sea currently experience high levels of plastic pollution even if its coastline meets advanced countries.

“Barcode v/s Plastic Waste” continues forward the argument, including and controlling a crucial and forgotten player in the current model of consumption: retail or supermarkets. “Barcode vs Plastic Waste” offers an efficient, win-win-win model: a sustainable and dynamic circle, a cradle to cradle controlled process for this currently destructive material.

Consumers must continue recycling, but reality shows clear that the potential to decrease plastic waste could not depend only upon consumer awareness. A high percentage of plastic waste passes through supermarkets and, subsequently, the entire distribution channel.

While supermarkets do hold responsibility for ENCOURAGING THE USE of plastic and packaging, they also have the potential, although never considered before, to encourage and provide incentives to producers and consumers to reduce their plastic quantities or eliminate it all together.

Following “Barcode v/s Plastic Waste”, Governments should request supermarkets to be responsible for all plastic recollection associated with products they sell, while Public Administration would maintain the duty of control: the barcode which identifies any item sold, offers the possibility to track and account all plastics, containers or packaging by simply adding these information into the barcode.

Having the package information -weight and material composition- inside the barcode will offer an extremely easy way to obtain the necessary data to apply follow-up control over its recollection. We would be able to monitor the recyclable materials per gram through the entire transaction system in real-time, allowing us to review any cash register day by day. Having the package information (weight and material composition) inside the same barcode will offer an extremely easy way to obtain the necessary data to apply follow-up control over its recollection. (i.e. PET 2/45gr. – PET5/75gr. – etc.)

Supermarkets should be responsible for all plastic recollection associated with products they sell

Supermarkets should be responsible for all plastic recollection associated with products they sell

This new recycling process could reach the full capacity in three years, requesting 30% of plastic recollection quantity the first year, 60% the second 90-100% the third.

Considering that from the very first year, supermarkets would very likely push producers to introduce dispensers with refilling containers wherever possible, we would have a considerable reduction of single use plastic at the very beginning.

Along with a necessary law, just new software and a new logistic inside supermarkets will be enough to produce the change. By simply adding future trash into the same barcode already used on any item sold, we would transform millions of negative actions into positive, preventing the loss of tons of raw material with a final reduction of petrol demand. This information would be provided just as the cash register’s account balance appears at the end of the day. Supermarket cash registers are the last control in the commercial process.

Full length proposal is available here