Pankaj’s village in Bharaich had no electricity for the past several years – and he had no recollection of using electricity to light up his home ever. Yet, everytime he travels to a large city, like Lucknow, he remained hopeful of turning on the switch some day.
The hope had been fading fast, and Pankaj had turned 26 – he was finished with school and had been hanging around with friends in the village. Agriculture was the main occupation and his family survived on tilling the small land holding that they had, and at times, working as washers in the cities. When the weather gods supported, they had a good crop – and that was enough to see them through a few months.
Pankaj’s life changed when he heard of a project being done around solar eletrification in a nearby district. He went to Sitapur where a small village was being electrified. On enquiring, he got a job with the company that was installing this project – and he learnt the ropes there. He was determined to get electricity into his village.
It has been three months that Semri Malma has electricity via solar – small amounts of lighting available for 30 houses cluster in the village. The lighting has changed people’s lives there. LED lighting provides, enough light to the occupants in the house to cook and eat, and for the children to study better. The kerosene lamp still lies in the house, somewhere, but not used – and smoky fumes are no longer bothering children and women in the house.
When you talk to Pankaj, there is a certain confidence in him – he says it was his dream to see his home lit – and he has been able to do better – he has got light for many more homes than just his alone.
There are many more Pankaj’s out there.. lets discover them – and change lives for the better.. lets light their lives !
When I tell people that I think the United States can stop using coal and gas to generate electricity by 2030 (see “All In”), even some of my fellow environmentalists sometimes raise a skeptical eyebrow. True, it doesn’t sound like very much time. But it’s actually longer than we needed to go from Sputnik to conceiving, building, and landing Apollo 11 on the moon.
I’m not saying it will be easy—but it’s most certainly achievable. That’s because, unlike with the Apollo program, we already have the technology: clean, renewable energy. Wind and solar have lifted off and will soon achieve escape velocity.
I understand the skepticism, though, because it’s easy to forget how fast new technologies can spread. At the start of the 20th century, automobiles were exotic and prohibitively expensive. But by the time Henry Ford stopped manufacturing Model Ts in 1927, he had sold 15 million of them, and lowered the price by two-thirds.
What will drive the spread of clean energy technologies is not just that they are cleaner, healthier, and safer. As with the rapid adoption of the Model T, it will be economics. Right now, we can’t afford “business as usual.” The International Energy Agency estimates that for every year the world delays taking significant action to curb climate change, we will have to spend an additional $500 billion down the road.
The specific economic risks posed by climate disruption were laid out in detail this summer in a report from the Risky Business Project, co-chaired by former New York City mayor Michael Bloomberg, retired hedge fund manager Tom Steyer, and former treasury secretary Henry Paulson Jr. (Bloomberg and Steyer have donated money to the Sierra Club through their charities.) Regarding real estate alone, it predicts that if we continue on our current path, between $66 billion and $106 billion worth of existing coastal property will be under the waves by 2050, and up to $507 billion worth by 2100.
Extreme weather is already having an economic impact, which explains why a majority of small-business owners support federal limits on carbon emissions from power plants. The main opposition, not surprisingly, comes from fossil fuel industries. ExxonMobil CEO Rex Tillerson admitted at a recent shareholder meeting that climate disruption is real, and that the effects will be severe, but maintained that it was essentially a “risk-management problem.” In other words, ExxonMobil will extract every ounce of oil and gas it can—if we let it.
Another economic reality is that renewables are becoming cheaper much faster than anyone guessed was possible. In just the past three years, the price of solar panels has dropped by more than 60 percent and the per-megawatt-hour price of wind has fallen by more than 40 percent. In places like Oklahoma, Texas, and Colorado, wind is cheaper than both coal and natural gas. As clean energy achieves greater economies of scale, this trend will accelerate.
Are there still technological and economic challenges? Absolutely. For example, our current power grid wasn’t designed for renewables. The up-front costs of modernizing it will be substantial—although the payoff is free fuel forever. And let’s not forget that we have to make the transition from dirty fuels while keeping the lights on for everyone and supporting workers in the communities most affected by this transition.
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We can do it, though, and not just because we have the technology and economics on our side, but also because we have the will. The EPA’s new standard to cut carbon pollution has overwhelming popular support. Polls show that 70 percent of U.S. adults agree that the federal government should limit “greenhouse gases from existing power plants in an effort to reduce global warming”—a majority that holds whether you ask Democrats, Republicans, or independents.
As President Obama told an audience of new college graduates this June, “You’re going to have to push those of us in power to do what this American moment demands.” And push we shall.
Expansion of electricity is vital to both economic and social development of a country. The current state of Electricity in most of the states in India is worse than ever which includes Nagaland, Orissa , Tripura, Arunachal Pradesh etc. The Census of India 2011 indicates that 44 % of India’s rural households continue to depend on Kerosene for lighting, while even today 0.5 percent of its population or close to 897,760 households does not have access to lighting at all.
Industry , Farmers and household have invested a substantial amount of their capital on various alternative power equipments such as generators, inverters, and Voltage stabilizers to fulfill the power demand. India’s annual per capita electricity consumption is 400 Kwh, which is far behind than other countries like China ( 900Kwh) , Malaysia (2500Kwh) and Thailand (1500Kwh). Inspite of various attempts to achieve 100% electrification , India has achieved 44% electrification to the rural households.
Solar is by far the largest energy resource available on Earth. Grids may fail to reach a place,but sun doesn’t. Solar photovoltaic aka “solar cells” are growing faster than any other energy technology. Total installed PV capacity has doubled every two years since the inception year 2000. This Moore’s Law-like growth shows no sign of slowing. If PV capacity were to keep growing at the current rate, solar panels would satisfy all electricity demand within a decade. They are by far the leading solar technology in terms of total deployment, operates silently at low temperatures, and it doesn’t require much maintenance. Lack of maintenance is nice, lack of carbon footprint is nicer.
Viable and reliable electricity through solar energy in Villages will result in increased productivity in
a) agriculture and labor,
b) improvement in the delivery of health and education,
c) access to communications (radio, telephone, television, mobile telephone),
d) improved lighting after sunset,
e) facilitating the use of time and energy-saving mills, motors, and pumps, and
f) increasing public safety through outdoor lighting.
With the ever increasing population and limited amount of fossil fuels (coal, crude oil etc) which upon burning warms our palnet and disturbs the ecological balance . We have to shift to a technology which is clean, green and promising.The only thing which comes into our mind is Decentralised Generation
India is really lucky to receive high volumes of solar light and energy all throughout the year. India receives sun shine over 300 days a year which is most of the time. About 5,000 trillion kWh per year energy is incident over India’s land area. Theoretically, a small fraction of the total incident solar energy (if captured effectively) can meet the entire country’s power requirements. Tapping into it effectively will help resolve energy crisis in many regions of the country.
It’s almost certainly not the case that 100% power will be solar energy , But it’s pretty much believable to imagine that over 40 years, solar energy could account for more than half of India’s Rural power. Solar today is about where electricity was in the late 19th century. Many had seen the promise, but few could fully grasp the possibilities
An Article by Samad Khan