Saturday, 1 October 2011

RECYCLING FACTS AND THE BENEFITS OF RECYCLING




What are the recycling facts and benefits?

Recycling is the process of turning one products useful parts into a new product; this is done to conserve on the consumption of resources, energy and space used in landfills.



By recycling1 plastic bottle not only saves anywhere from 100 to 1000 years in the landfill but also saves the environment from the emissions in producing new bottles as well as the oil used to produce that bottle.


For every1 ton of plastic that is recycled we save the equivalent of 2 people’s energy use for 1 year, the amount of water used by 1 person in 2 month’s time and almost 2000 pounds of oil.


Today the most common products in cities recycling programs are paper products, cardboard, plastic, glass and aluminum.


Recycling is a very environmentally green activity; however, there are ways that you can make it greener as well as building a strong beginning if you do not currently recycle.



Spread The Word

Share what you know. If you notice abundant trash in your neighborhood start spreading the word and your experience with recycling and if there isn’t already one in place strive to get a city recycling pick up program started.


The fact is many of our resources as well as our Earth is not renewable and we have to start taking control of our selves beginning with the world we live in. 


Global warming is no longer viewed as a theory by scientists and has sadly become a fact. The change needed must be in your actions today in order to ensure a bright (not too hot) tomorrow.



Monday, 26 September 2011

Nissan Leaf Zero Emission




Design

The Leaf's frontal style is characterized by a sharp V-shape design with large, up slanting light-emitting diode (LED) headlights that create a distinctive blue internal reflective design. The headlights also split and redirect airflow away from the door mirrors, which reduces wind noise and drag. The headlights consume 50% less electricity than halogen lamps.[33] Nissan sought to make the Leaf appealing to mainstream drivers by giving it a familiar sedan- and hatchback-like design.[34] The bottom of the car has aerodynamic paneling to reduce drag and improve aerodynamics as much as possible.[35]
Leaf interior
Leaf electronic control unit
Leaf lithium-ion battery pack
[edit] Powertrain

Nissan says that the car has a top speed of over 150 km/h (93 mph). Its motor is rated at 80 kilowatts (110 hp) and 280 newton metres (210 lb·ft).[36] Unofficially, 0 to 60 mph (0 to 97 km/h) performance has been tested at 9.9 seconds.[2]

The Leaf uses a front-mounted electric motor driving the wheels, powered by a 86 megajoules (24 kW·h) lithium ion battery pack rated to deliver up to 90 kilowatts (120 hp) power.[37] The pack contains air-cooled, stacked laminar battery cells with lithium manganate cathodes.[38][39] The battery and control module together weigh 300 kilograms (660 lb) and the specific energy of the cells is 140 W·h/kg.[36] Each battery pack costs Nissan an estimated US$18,000 (as of May 2010[update]).[40][41] Under its five-cycle testing, the United States Environmental Protection Agency found the Leaf's energy consumption to be 765 kJ/km (34 kWh/100 miles) and rated the Leaf combined fuel economy equivalent at 99 MPGe (2.4 L/100 km), with an equivalent 106 mpg-US (2.22 L/100 km; 127 mpg-imp) in city driving and 92 mpg-US (2.6 L/100 km; 110 mpg-imp) on highways.[7][8]
[edit] Battery

The 24 kWh battery pack consists of 48 modules and each module contains four cells, a total of 192 cells, and is assembled by Automotive Energy Supply Corporation (AESC) – a joint venture between Nissan, NEC and NEC Energy Devices, at Zama, Japan.[42][43][44] Since the battery is the heaviest part of any EV, Nissan housed the battery pack below the seats and rear foot space to keep the center of gravity as low as possible and also results in increased structural rigidity as compared to a conventional five-door hatchback.[2][44][45]

The battery pack is expected to retain 70% to 80% of its capacity after 10 years but its actual lifespan depends on how often fast charging (440-volt) is used and also on environmental factors.[39] Nissan stated the battery has a "lifespan of 5–10 years under normal use".[46] The Leaf's battery is guaranteed by Nissan for eight years or 100,000 miles (160,000 km)[47][48] (see Warranty sub-section below under United States for limitations).

In addition to the main battery, the Leaf also has an auxiliary 12-volt lead-acid battery that provides power to the car computer systems and accessories such as the audio system, supplemental restraint systems, headlights and windshield wipers.[49] The small solar panel on the Leaf rear spoiler (in the United States, only comes with SL trim[50]) helps to charge this accessory battery.[51]

Nissan recommends owners the following preventive actions to help maximize the lithium-ion battery’s useful life and its ability to hold a charge:[49]

    * Avoid exposing a vehicle to ambient temperatures above 120 °F (49 °C) for over 24 hours.
    * Avoid storing a vehicle in temperatures below −13 °F (−25 °C) for over 7 days.
    * Avoid exceeding 70 to 80% state of charge when using frequent (more than once per week) fast or quick charging.
    * Allow the battery charge to be below at least 80% before charging.
    * Avoid leaving the vehicle for over 14 days where the Li-ion battery available charge gauge reaches a zero or near zero (state of charge).

Range

According to Nissan, the Leaf's expected all-electric range is 160 kilometres (100 mi) on the EPA city driving cycle and remains the same as the EV-11 prototype.[52] However, the United States Environmental Protection Agency official range is 117 kilometres (73 mi) based on the five-cycle tests using varying driving conditions and climate controls.[7][8] The Federal Trade Commission, which is supposed to label all alternative-fuel vehicles, disagrees with the EPA rating, and considers that the correct range is between 96 to 110 miles (154 to 180 km). Although the FTC does not conduct its own tests as EPA does, it relies on a standard set by SAE International and the results reported by automakers.[53] The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle.[9]

Based on third-party test drives carried out in the US, reviewers have found that the range available from a single charge can vary up to 40% in real-world situations; reports vary from about 100 kilometres (62 mi) to almost 222 kilometres (138 mi) depending on driving style, load, traffic conditions, weather (i.e. wind, atmospheric density), and accessory use.[54][55] Nissan tested the Leaf under several scenarios to estimate real-world range figures, and obtained a worst case scenario of 76 kilometres (47 mi) and a best case scenario of 222 kilometres (138 mi). The following table summarizes the results under each scenario tested using EPA's L4 test cycle and presents EPA rating as a reference:[56][57]
Summary of the Nissan's results using EPA L4 test cycle
operating the Leaf under different real-world scenarios[56][57]

Consumer Reports tested a Leaf loaner under cold-weather driven as a daily commuter. The average range obtained was 105 kilometres (65 mi) per charge with temperatures varying from 20 to 30 °F (-7 to -1 °C). The magazine also reported one trip under a temperature of 10 °F (−12 °C) that began with the range panel indicator showing 32 kilometres (20 mi) remaining. After 13 kilometres (8 mi) the Leaf drastically lost power and dropped its speed and continued to run slower until the last stretch was completed almost at walking speed. Consumer Reports concluded that the Leaf works as designed under cold temperatures but a more accurate range indicator is desirable.[58]

In June 2011 Nissan reported, based on data collected through the Leaf's advanced telematics system, that most Leaf owners in Japan and the United States drive distances less than 60 miles (100 km) per day.[59] Nissan also found that on average owners charge their electric cars for two hours a night, and occasionally some owners drive two days on one charge.[60]


 Recharging


The Leaf has two charging receptacles: a standard SAE J1772-2009 connector for level 1 and 2 charging (120/220 volts AC)[61] and a JARI high-voltage DC connector designed by TEPCO for DC fast charging (480 volts DC 125 amps)[62] using the CHAdeMO protocol.[63]
The Leaf's charging port with two inlets is located at the front of the car.

Using the on-board 3.3 kW charger[64] the Leaf can be fully recharged from empty in 8 hours from a 220/240-volt 30 amp supply (5.2 kW allowable draw[65]) that can provide the on-board charger its full 3.3 kW of usable power.[66][67]

In North America and Japan using a standard household outlet (120-volt, 15 amp breaker, 12 amp maximum allowable draw,[65] 1.4 kW) and the 7.5-meter (25 ft)[68] cable included by Nissan, the Leaf will regain approximately 5 miles of range per hour. This type of charging is intended for convenience use when making stops or for emergency charging if you are within a short range of the charging destination.[66]

United States electrical regulations require a 240-volt charging station to be permanently wired to an AC outlet unless proper interlock mechanisms are available to ensure the charging current can be safely turned on and off.[65] Nissan selected AeroVironment to supply its charging dock and installation services in North America[69] (see the United States section below for more details).

Using DC fast charging, the battery pack can be charged to 80% capacity in about 30 minutes.[70] Nissan developed its own 500-volt DC fast charger that went on sale in Japan for ¥1,470,000 (around US$16,800) in May 2010 and plans to install 200 at dealers in Japan.[71][72] Nissan warns that if fast charging is the primary way of recharging, then the normal and gradual battery capacity loss is about 10% more than regular 220-volt charging over a 10-year period.[39] Other companies make compatible charging stations, and companies and local government have various initiatives to create networks of public charging stations[66][73] (see electric vehicle network).

Nissan plans to double the power of the on-board charger to 6.6 kW by sometime in 2012 (2012 or 2013 model year). They are also studying the possibility of offering upgrades for the 2011 year model.[74][75]
[edit] Technology
Nissan Leaf SL spoiler-mounted solar panel

The Nissan Leaf employs an advanced telematics system called "Carwings" which originally was only available in Japan.[76][77] The system sends and receives data via a built-in GPRS radio similar to the connectivity of mobile phones. Carwings is connected any time the car is in range of a cell tower and it makes possible several user functionalities, such as position and possible range on a map and which charging stations are available within range. The system also tracks and compiles statistics about distance traveled and energy consumption and produces daily, monthly and annual reports of these and several other operational parameters. All information is available in the Leaf's digital screens.[76][78] Users' mobile phones can be used to turn on the air-conditioner and heater, and reset charging functions even when the vehicle is powered down. This remote functionality can be used to pre-heat or pre-cool the car prior to use while it is still charging so that less energy from the battery is used for climate control. An on-board remote-controlled timer can also be pre-programmed to recharge batteries at a set time such as during off-peak rates.[79] The Leaf's SL trim has a small solar panel at the rear of the roof/spoiler that can trickle charge the auxiliary battery.[80]
Leaf's dashboard panel showing driving range (on right) and other performance parameters

Due to significant noise reduction typical of electric vehicles that travel at low speeds, the Leaf includes digital warning sounds, one for forward motion and another for reverse, to alert pedestrians, the blind, and others of its presence.[81][82] For this purpose Nissan created the Vehicle Sound for Pedestrians (VSP) system, which also will be used in the upcoming Nissan Fuga hybrid, due in 2011. The system developed makes a noise easy to hear for those outside in order to be aware of the vehicle approaching, but the warning sounds do not distract the car occupants inside. Nissan explained that during the development of the sound, they studied behavioral research of the visually impaired and worked with cognitive and acoustic psychologists.[82][83][84] The sine-wave sound system sweeps from 2.5 kHz at the high end to a low of 600 Hz, an easily audible range across age groups. Depending on the speed and if the Leaf is accelerating or decelerating, the sound system makes sweeping, high-low sounds. The sound system ceases operation when the Nissan Leaf reaches 30 kilometres per hour (19 mph) and engages again as car slows to under 25 kilometres per hour (16 mph). The driver can turn off sounds temporarily through a switch inside the vehicle, but the system automatically resets to "On" at the next ignition cycle. The system is controlled through a computer and synthesizer in the dash panel, and the sound is delivered through a speaker in the front driver’s side wheel well.[82][83][85] After the new sounds were publicized, the US National Federation of the Blind commented that "while it was pleased that the alert existed, it was unhappy that the driver was able to turn it off."[82]

Safety

The Nissan Leaf qualified as winner of "Top Safety Pick" by the Insurance Institute for Highway Safety. The Leaf received the top ratings of "Good" for front, side, and rear impact crash tests, and also on rollover protection. All injury measurements except one were rated good, indicating a low risk of significant injuries in crashes according to the scale of severity employed in the IIHS’s testing.[86][87] The European New Car Assessment Programme (Euro NCAP) awarded the Leaf the highest five star car safety rating. The Leaf earned an 89% rating for adult safety, an 83% rating for child protection and an 84% rating for its on-board safety assist systems. It also earned a higher-than-average 65% score for pedestrian safety.[88]


POWER DEMAND


Power demands of developing countries are expected to grow by 2.5% annually. If those demand are not provided reliance on burning fossil fuels (gas, oil and coal) might be an alternative, if this happens carbon dioxide and other greenhouse gases will be produced in our atmosphere, a scenario that will promote global warming paving the way for flooding in lowland areas (because of the rise of sea level and melting of icebergs in the north and south poles), powerful storms, droughts that could lead to famine, climate change and acid rain. A haze which is also known as “Asian Brown Cloud” about 3 kilometers thick, is assumed to be the cause of thousands of deaths in South Asian region last 2001.


Recycle Your Old Gadgets!



If you have a device that has reached the end of its useful life, you definitely don't want to toss it. Avoid hazardous e-waste by utilizing one of the growing number of free recycling programs. Many manufacturers like Toshiba will take back old gear for free, helping to make disposal easy on you and the earth. Check out local electronics stores, or check online for free recycling programs in your area. But be very sure that you're turning your electronics in to a responsible recycler -- one that promises not to export to e-waste dumps and abides by BAN guidelines. Check eStewards for listings of just such recyclers.
If you have a device that has reached the end of its useful life, you definitely don't want to toss it. Avoid hazardous e-waste by utilizing one of the growing number of free recycling programs. Many manufacturers like Toshiba will take back old gear for free, helping to make disposal easy on you and the earth. Check out local electronics stores, or check online for free recycling programs in your area. But be very sure that you're turning your electronics in to a responsible recycler -- one that promises not to export to e-waste dumps and abides by BAN guidelines. Check eStewards for listings of just such recyclers.



Personal Solar Chargers and Wind Chargers for Gadgets !




Renewable energy chargers that are portable and not extraordinarily expensive are thankfully getting more commonplace. These make charging up your gadgets with sun and wind possible. While they don't provide energy as cheaply as plugging into the wall when you factor in their purchase price, the energy used for your gadgets is at least clean and will, eventually, be free.


It's a start---every little bit helps !!



The energy used by Canadian households more than doubled between 1990 and 2007 to power our ever-growing collections of electronics and small appliances. Look around: you probably have up to 40 plug-in devices that are drawing power even when they’re switched off. Whatever you call it — phantom power, idle current, vampire load, wall warts — the Conserve Socket Power Timer promises to save energy by cutting power to a device after 30 minutes to 6 hours.

WATER



- It is very ironic that the world is surrounded by water and only 2.5% of it is fresh water and a fraction of it is accessible.

- We may face serious water problems, if we will not use our water supply well.

- The summit endorses “More crop per crop” mentality, an approach which is about efficient irrigation technique and planting crop varieties that need less water

GO GREEN



Throwing open the windows on the first warm day of the year is one of life's great pleasures--until, of course, all that sunlight and breeze makes you realize how dusty, dirty, and cluttered your house has become during the winter hibernation. Even the messiest among us get the urge for spring cleaning--and though we don't all act on it, those of us who do should keep the annual scrub-down as green as possible

Tell me what good things have you done for our planet?




Use less plastic bottles and bags.


Use squigly lights, buy organic foods, do alot of landscaping, and last but not least recycle.


keep the forest in order to stay green.
reduce the greenhouse effect.
create a garden around the house even though small but it's a bit much to reduce carbon gases in the air.


LAST BUT NOT THE LEST RECYCLING IS  AN OPTION LEFT FOR US NOW A DAYS.

Saturday, 24 September 2011


BACTERIA, SALT WATER MAKE HYDROGEN FUEL



The 'hydrogen economy' requires a lot of things, but first is an easy and cheap supply of hydrogen. There are lots of ways to make it, but most of them don't produce large quantities quickly or inexpensively.

Professor Bruce Logan, director of the Hydrogen to Energy Center at Penn State University, has found a way to change that. He used a process called reverse electrodialysis, combined with some ordinary bacteria to get hydrogen out of water by breaking up its molecules.

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Water -- which is made of two atoms of hydrogen and one of oxygen -- can be broken down with electricity. (This is a pretty common high school science experiment). The problem is that you need to pump a lot of energy into the water to break the molecules apart.

Logan thought there had to be a better way. He combined two methods of making electricity -- one from microbial fuel cell research and the other from reverse electrodialysis.


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In a microbial fuel cell, bacteria eat organic molecules and during digestion, release electrons.

In a reverse electrodialysis setup, a chamber is separated by a stack of membranes that allow charged particles, or ions, to move in only one direction. Filling the chamber with salt water on one side and fresher water on the other causes ions to try and move to the fresher side. That movement creates a voltage. Adding more membranes increases the voltage, but at a certain point it becomes unwieldy.

By putting the bacteria in the side of the reverse electrodialysis chamber with the fresh water, and using only 11 membranes, Logan was able to generate enough voltage to generate hydrogen. Ordinarily he would need to generate about 0.414 volts. With this system, he can get .8 volts, nearly double. (The microbial part of the cell generates 0.3 volts and the RED system creates about 0.5.)

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Using seawater, some less salty wastewater with sewage or other organic matter in it and the bacteria, Logan's apparatus can produce about 1.6 cubic meters of hydrogen for every cubic meter of liquid through the system of chambers and membranes. Another bonus is that less energy goes into pumping the water -- if anything, flow rates and pressure have to be kept relatively low so as not to damage the membranes.

Making hydrogen cheaper is a necessity if hydrogen cars are to be a reality. Some car companies already make hydrogen-powered models. The state of Hawaii is already experimenting with hydrogen fuel systems. Producing cheaper, abundant hydrogen -- especially from sewer water and seawater -- is a big step in that direction.


PepsiCo’s responsibility is to continually improve all aspects of the world in 
which we operate – environment, social, economic – creating a better
 tomorrow than today”




PLEASE VISIT SITE BELOW 



http://www.eco-generation.org/activities/news/view.html?boardno=47&cat1=&cat2=&thread=800&no=800&page=65&search=&keyword=


Human Sustainability
This reflects PepsiCo’s goal of nourishing consumers with products that range from treats to healthy eats. PepsiCo’s products have always offered consumers nutrition as well as great taste. The progress that PepsiCo has made under the Human Sustainability pillar includes reformulating some of its products to improve their nutritional profile while launching products that reflect consumer demand for healthier nutritious snacks and beverages. PepsiCo partners with Governments, health officials and Non Governmental Organisations to help address obesity concerns and it continues to provide consumers with new product choices and innovations.  


Environmental Sustainability
This is based on PepsiCo’s commitment to strive to replenish the resources used where possible, and minimize the impact on the environment. PepsiCo continues to work to further reduce its water and electricity consumption and improve its packaging sustainability. Across the world, PepsiCo has re-used water from its processing plants and has worked with local communities to provide access to clean water, while supporting farmers to deliver “More crop per drop.” 


Talent Sustainability
This is founded on PepsiCo’s belief that cherishing its extraordinary group of people is crucial to building an empowered workforce. PepsiCo pursues diversity and creates an inclusive environment which encourages associates to bring their whole selves to work. PepsiCo has increased female and minority representation in the management ranks and has encouraged employees to participate in community service activities while continuing to create rewarding job opportunities for people with different abilities.   

Together, PepsiCo associates across the world are building on the platform of Human, Environment and Talent Sustainability, while delivering great financial results.

Source: PepsiCo India official website (tomorrowbetterthantoday.com)



Monday, 4 July 2011