Does Your Company Reduce, Reuse and Recycle? It Should!

The saying has been around for decades, but there is more to it than sorting through your trash at home, rinsing bottles and cans and placing a container by the road.

When it comes to recycling plastic, many companies in the U.S. and abroad are ignoring the process and using the “simpler” method of sending plastic waste to the landfill. They may be aware of the environmental benefits to recycling, but not the financial benefits it can bring to their company. Otherwise, they’d be doing things differently.

A recent study showed that nine million tons of plastic waste will end up in our oceans in 2015 alone; Proof-positive that the majority of industries are uninformed about recycling benefits.

Scarily, this amount could increase by ten times as much in the coming years. Most can agree this isn’t ideal for our planet’s health, but many will fail to take the steps necessary to prevent it.

Recycling Companies Keep Working for Change

On a brighter note, the industry is booming for companies recycling plastic, there is steady increase in their clientele throughout the western U.S. and Canada.

By reducing waste companies can turn the future of our planet into something promising. They carries an impressive logistics ability that allows them to pick up tons of plastic from companies and pay them for it, preventing it from ending up in a landfill.

They also recycle the plastic into sustainable, reusable and raw forms, available to companies for less than usual. They can choose pellet, pulverized and regrind forms of plastic that’s been repurposed into high-quality resin perfect for producing a variety of products.

An Endless List of Uses

Recycling plastic is smart, and it can be used in so many things that companies fail to consider. Currently, these plastics are used in:

  • Toys
  • Building materials
  • Medical supplies
  • Automobiles

That’s just the tip of the iceberg when it comes to the possibilities for the resins produced at companies. For more information on what industries work with them, you can contact the professionals at the company and they’ll be happy to tell you.

Putting a Price on It

Though prices for buying and selling recycled plastic vary according to influence by global markets, the benefit is clear. Any money your company is earning from what would have potentially been garbage is a plus.
On the other hand, getting a lower price on recycled resins as opposed to purchasing them new is a no-brainer. The more companies that realize this advantage, the sooner we see a better outcome for the environment.

Anything is better than absent-mindedly releasing dangerous toxins into the air we breathe. Clean air is priceless. More attention is necessary to bring this danger to the light, but also push the benefits of recycling plastic. Once companies realize what’s in it for them, they’ll jump on board.

It Can’t be Easier

Companies are willing to work with clients to create a plan that allows them to collect plastic for recycling on their terms for the final in convenience. It is no more difficult than throwing it away. Extensive logistics connections allow them to easily serve a variety of industries in their area, including medical and automotive.

Their combination of assets, experience and knowledge allows them to give top-notch processing capabilities, and will give your company a great reputation for doing their part to save the environment by adopting sustainable practices.

Organic Photosynthetic Solar Cells Over Silicon Solar Cells

As the great spectre of climate change continues to loom large over the future, the search for viable, renewable energy sources is becoming ever more important.

Solar power has long been seen as a vital ingredient in our clean energy future. With a little inspiration from nature, solar power might just have become an even more promising prospect than was first thought.
Photosynthesis is the solar energy storage process in which plants take sunlight, carbon dioxide and water and convert these into energy (in the form of sugar) and oxygen. The traditional view of photosynthesis is that long-wavelength light (far-red and infrared light, with wavelengths longer than 700 nanometres) contains low energy photons. We used to think that light at these long wavelengths wasn’t “energetic” enough to produce oxygen. In other words, we thought photosynthesis could only occur with the light we humans can see.

But the discovery of a new type of chlorophyll – called Chl f – changes the way we think about photosynthesis. This new green molecule has the greatest ability of any cholorophyll to absorb red-shifted light – that is, light with wavelengths longer than the human eye can detect. This discovery of chlorophyll f challenges traditional views about the physical limits of photosynthesis.

Explicitly, the overall chemical equation for plant photosynthesis is given by the following equation:

6CO2+6H2O+hV—->C6H12O6+6CO2

In this double replacement reaction, complex compounds are synthesized from smaller ones. In this particular equation, hv represents the amount of energy from one photon, while the process known as electron transfer begins after the photosynthesis is complete. One way to increase the electron transfer of chlorophyll is to replace the Magnesium (Mg) atom with another metal such as Copper (Cu) or Iron (Fe). Though introduction of too much of heavy metal may cause damage to sensitive plant tissues, the outcome will surely be effective.

Organic Photosynthetic solar cells (PSC) are designed to convert light in to electricity in four steps, similar to that of the natural process. First the maximum absorption of light; which in turn forms an excited state of electrons as the second step. Next, the excitation diffusion into regions, where charge separation occurs and finally this then leads to charge transfer.
The typical characteristic of a photovoltaic device are described as-

I=Io{exp[e/nkT(U-IRs)-1]+[(U-IRs)/Rsh]-Iph

This equation can be explained in the following terms: Io is the dark current, e is the charge of the electron, n is the diode ideality factor, U is the applied voltage, Rsh is considered the series resistance, Iph is the photoelectric current. The PSC can be synthesized into layers in following order-chlorophyll, a catalyst, argose, and graphene.

The ONE square inch prototype consists of light sensitive molecule, including the photosynthetic powerhouse chlorophyll, embedded in a water based gel sandwiched between Copper and plastic electrodes. Unlike traditionally, many of which contain toxic elements as Cadmium, biologically derived materials can be safely released into the environment after use. The cell’s flexibility could be made an ideal choice for covering irregular surfaces, large pieces could even be rolled up or folded for easy transportation.

It was estimated that the efficiency of a single solar cell produced from this method performed at less than 1% of that achieved by silicon cells. Although sensor data was unavailable, a current could be detected using an ohm meter. Even though this number is small, it does confirm the hypothesis that living chlorophyll can be extracted and used to transfer light energy into electrical energy.

However, varying the configuration of the cell, improved layering techniques, extracting chlorophyll from multiple sources and varying methods of extraction can be utilized to enhance the performance of a photosynthetic solar cell using chlorophyll. Hence as in the past solar panels and cells have replaced quite many electricity providing technologies in the past decade, now within a few years with the quest for better changes in lifestyle organic cells are sure to be on a rise.

The Advantages of Wind Power – What Are the Disadvantages?

With the fossil fuel industry in seeming crisis, many are wondering if Wind Power is the way forward to solve the fossil fuel crisis.

The problem with fossil fuels is that there is only a limited supply of these resources. When they’re gone, they’re gone. Also the effect of the over-consumption of these have led to many environmental issues such as air pollution, oil spills, and the destruction of natural habitats. Therefore many are advocating the promotion of using more eco-friendly sources of energy, one of which is harnessing the power of the wind.

It has to be said that the use of wind powered turbines is becoming a very controversial issue. Many environmentalists agree with the principle, but object to the way that wind powered turbines and generators make marks on the landscape. For example, in Scotland Donald Trump is objecting to a wind farm which will be in view of a golf course which he is developing.

However, from an environmental point of view, what are the advantages of using the wind as a power source?

Advantages of Wind Power?

The first advantage is that the source of the energy is completely free. The only investment is the installation of the wind turbine and then the regular upkeep. This means that money doesn’t have to be spent to regularly harness the power, unlike digging for coal, drilling for oil and extracting gas.

The second advantage is that investing in wind power is significantly lower than in fossil fuels. For example, a person doesn’t have to do much exploration to find out where a windy place is. Wind turbines come in all sizes, and this means that they can be purchased by an individual, if he has the space to place this on his own land. More and more in the developing world there is a push towards small villages and town installing their own wind turbines so that they can reduce the dependency on expensive fossil fuels.

Another advantage of using the power of the wind is that they only take up a relatively small area of land. So it means that the land on which the wind turbine is situated can also be used for other purposes, for example, agriculture, livestock and even recreation.

Of course, this doesn’t mean that wind powered turbines isn’t without its own disadvantages.

Disadvantages of Wind Power

One of the main disadvantages of wind power is the fact it’s not always available. Many governments build wind farms in places where there are already strong winds, for example, on hillsides and along coastlines. However even doing that cannot guarantee a constant source of power.

There are other disadvantages to wind power, but these are usually small and are based on location and an individual’s viewpoint. Many people who live close to wind turbines complain of the noise. There is also the issue of flickering shadows, which can be annoying to people at home.

There is one area of wind power where either side have their point to prove – the impact on the landscape.

Disagreements on using the Power of the Wind

The main disagreement seems to be the footprint that wind turbines and generators leave on the landscape. Many people are of the opinion that the countryside should be left unspoiled. Whereas others feel that the wind generators have become and interesting addition to the landscape. After all, they are they to protect the environment.