How Green is your Valley?

Though India's per capita carbon emission is low, urbanites have a high personal carbon footprint. Here's how to reduce it at little cost-

IF YOU go by numbers alone, concerns about carbon emission may seem exaggerated. At an average per capita carbon emission of 1.18 tonnes, India is a laggard compared with countries like the US (19 tonnes), Japan (9.7 tonnes) and even our stiffest competitor China (4.6 tonnes). Moreover, households contribute a meagre 10-12 per cent to the national carbon footprint. So why bother about the carbon emission you are responsible for or the ways to reduce it?

"It is because the top 25 per cent of the population, which includes the middle class, has a larger carbon footprint than others," says Jyoti Parikh, executive director, Integrated Research and Action for Development (Irade). "As low-income households consume more resources to improve their standard of living, their footprint will increase. To maintain the overall balance, the top bracket must reduce energy wastage."

The CII-Sohrabji Godrej Green Business Centre has helped formulate the carbon footprint of an average urban household for money today. According to their study, an urban family of four emits 13,865 kg of greenhouse gases every year. Says N. Muthusezhiyan, senior counsellor at the CII Centre, "We have assumed the maximum possible usage of devices. Most people will have a carbon footprint ranging from 80-100 per cent of 13,865 kg."

This figure may be lower than the average household emission in the West, but it is way higher than the carbon footprint of rural and low-income families. "It is the difference between owning two cars and none. If people incorporate the steps that we have suggested (see Small is not Costly), middle-class households can cut emissions by as much as 42 per cent," he says.

The problem, as most people believe, is that shrinking your carbon footprint may bloat your budget. A green lifestyle, they think, is an elitist pursuit and requires big-ticket expenses. Is it true or just a convenient way to pass the buck?

To find the answer, we worked out the cost of adopting the measures suggested by CII. The result is surprising. A green lifestyle can be yours for as little as Rs 1.03 lakh a year. We say 'little' because this is not incremental, but absolute cost. Moreover, it includes one-time expenses like a 5-star rated air conditioner, a solar heater and double-glazed glass for windows. From the second year onwards, staying green becomes much cheaper - about Rs 8,020.

The only other obstacle in popular imagination is the tedium of maintaining an eco-friendly lifestyle. "It involves no hassles," says 40-year-old Arjun Valluri, who built a green home in Hyderabad last year. It boasts solar panels for heating, a sewage treatment plant and double-glazed glass windows, besides other features. "Of the nearly Rs 6 crore that I spent, only five-six per cent was on green additions," says Valluri. It is no noblesse oblige that motivated him to shell out extra. "The payback period for these measures is five years. For instance, the monthly electricity bill for a house of this size would be about Rs 22,000, whereas I pay only Rs 4,000-5,000 a month," he says.

Does this convince you that an eco-friendly lifestyle is easy to adopt and inexpensive to maintain? However, you may not know how to start building one.

Here is a ready reckoner to take you through the nitty- gritty of going green.

Construction add- ons

If you are lucky enough to be building an independent house, you can enjoy a greener lifestyle than those living in an apartment.

Introduce the green elements at the blueprint stage itself. For instance, ensure that you make maximum utilisation of day light to reduce electricity bills. The trick is to know when too much light transmission will result in too much heat and increase your cooling cost.

Experts suggest that sunlight ranging from 100 to 500 lux (the unit used to measure illuminance) is adequate for a room.

Similarly, good ventilation is crucial to keep the cooling bills down. For the same reason, maintain a low window- to- wall ratio.

This means that the number of windows in every room should be as few as possible. Says Vishal Garg, associate professor and head, Centre for IT in Building Sciences, IIIT, Hyderabad, "An ordinary window with an area of 1 sq m brings in about 850 watt of heat if it is exposed to direct sunlight.

This can be cut by 75 per cent by using shades, doubleglazed glass, etc." As windows account for 10- 25 per cent of your heating bills, these methods are very cost- effective in the long run.

The upfront cost of doubleglazed glass is steep, ranging from Rs 400- 800 per sq ft, but you can opt for cheaper alternatives like sun films or shades, though they aren't as aesthetic as glass.

Retrofitting apartments

Readymade homes do not have too many options for changes in architecture. As the shell cannot be torn apart, you must concentrate on energy conservation by using efficient equipment. However, little things do add up.

Intelligent equipment

For most people, energy- efficiency ends with buying a starrated air conditioner. "Refrigerators also have a high electricity intake as they are never switched off," says Garg. They can constitute up to 35 per cent of the total electricity consumption of your household depending on their capacity and your usage pattern.

So it is important that all appliances have a high star rating.

Fuel economy

Apart from the obvious, such as walking instead of driving to the neighbourhood market and car pooling, you can reduce fuel consumption by maintaining your car well and driving by rules.

 

 [tags dilbag koundal, IT Projects, ERP/SAP Consultant, Web designer, Pantnagar, Kangra, Weonlinecoders, Himachal News]

Earth in the Beginning

The early Earth was a vision of hell, all scalding rock and choking fumes. Since then, its surface has cooled, continents have drifted, mountains have risen and eroded, and life has emerged, benign and green. Nearly all traces of the planet as it was have been wiped away. But from clues in the oldest rocks, deepest magmas, and even the cratered face of the moon, scientists have traced the planet's beginnings.

As those early days have come into focus, so have the rare scenes, found today in some of Earth's harshest places, that recall its ancient self.

Its birth pangs began some 4.6 billion years ago as rock and ice particles swirling around the young sun collided and merged, snowballing to produce ever larger planetary building blocks. In violent pileups, they smashed together to create planets, including the infant Earth. In the turmoil, another body, as big as Mars, struck our planet with the energy of trillions of atomic bombs, enough to melt it all the way through.

Most of the impactor was swallowed up in the bottomless magma ocean it created. But the collision also flung a small world's worth of vaporized rock into orbit. Debris quickly gathered itself into a ball, and since then Earth history has unfolded beneath the blank stare of the moon.

After the moon's fiery birth, the Earth's surface cooled. Even so, our planet remained an alien world for the next 700 million years; scientists call this time the Hadean, after the Greek underworld. Rafts of solid rock drifted in the magma like dark ice floes.

Gases hissed from the cooling rockâ€"carbon dioxide, nitrogen, water vapor, and others-enveloping the planet in a scalding atmosphere devoid of oxygen. As the temperature dropped further, the steam condensed into rain that tell in primordial monsoons and filled the ocean basins.

These first oceans may have been short-lived. Space rubble left over from the birth of the planets-chunks of rock tens to hundreds of miles across-bombarded Earth throughout the Hadean. The greatest impacts might have boiled the oceans away, forcing the process of cooling and condensation to begin again.

By 3.8 billion years ago the impacts relented. Liquid water could persist. About that time, perhaps in the oceans, lifeless chemical reactions crossed a threshold, producing molecules complex enough to reproduce themselves and evolve toward greater complexity. Life was on a road that led, as early as 3.5 billion years ago, to single-celled, blue-green cyanobacteria that flourished in the sunlit parts of the oceans.

By the trillions, these microscopic organisms transformed the planet. They captured the energy of the sun to make food, releasing oxygen as a waste product. Little by little they turned the atmosphere into breathable air, opening the way to the diversity of life that followed.

Those days are long gone, but the processes that turned our planet from a hell to a habitable world are still on view today. Primordial heat left over from the planet's formation still bursts out in volcanic eruptions, spilling lava that exudes gases like the young, cooling Earth.

In the planet's harshest environments today, cyanobacteria reign as they have for billions of years. And each time a plant gains a toehold on newly cooled lava, the victory of life over lifeless rockâ€"won so long ago on the young Earth-is affirmed again.

 [tags dilbag koundal, IT Projects, ERP/SAP Consultant, Web designer, Pantnagar, Kangra, Weonlinecoders, Himachal News]