Nov 20, 2013

Water plant back online in typhoon-devastated city

Admin
2 min
At least 200,000 people affected by Typhoon Haiyan in the Philippine city of Tacloban and six surrounding districts are now receiving clean water f...

At least 200,000 people affected by Typhoon Haiyan in the Philippine city of Tacloban and six surrounding districts are now receiving clean water for cooking and drinking, as the first water treatment plant came back to full operating capacity earlier this week.

Since Super Typhoon Haiyan hit the Philippines just over a week ago, the water treatment plant for Leyte district was only operating at one-fifth of its normal capacity, leaving survivors of the storm vulnerable to disease.

Critical negotiations involving UNICEF, the Philippine armed forces and USAID have resulted in an initial emergency supply of fuel from the Philippines military to run the plant for four days, with USAID pledging to maintain the supply of required fuel on an ongoing basis. 

How to help: 

For more information or to make a tax-deductible contribution to UNICEF's relief efforts, contact the U.S. Fund for UNICEF: www.unicefusa.org/philippines 
Toll free: 1-800-FOR-KIDS
Text: RELIEF to 864233 to donate $10 
Mail:
 125 Maiden Lane, 10th Floor, New York, NY 10038
Twitter: @unicefusa, #Haiyan; Facebook: UNICEF-USA

“It's critical that we provide at least 15 liters of clean drinking water per day for each individual if we are to prevent diarrhea and other water borne diseases,” said Tomoo Hozumi, UNICEF representative in the Philippines.

“What we have seen is vital collaboration between government, donors and UN agencies that will literally save lives. Because of these efforts, hundreds of thousands of people will now have sufficient clean water to meet their basic needs for cooking, cleaning and good hygiene.”

Full operation of the water treatment plant will restore access to chlorinated water to 30,000 water connections. The increase of volume from 15,000 cubic liters to now 60,000 cubic liters also means shorter lines at public taps.

In the last 72 hours, UNICEF has been trucking and airlifting water and sanitation supplies to Tacloban and other affected areas including Roxas, in an ongoing effort to restore clean water supplies, and reduce the threat of diseases caused by poor sanitation and contaminated water.

The next steps will be to repair water distribution lines and provide water in the harder to reach areas. 

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Jul 29, 2021

Carbon dioxide removal revenues worth £2bn a year by 2030

Energy
technology
CCUS
Netzero
Dominic Ellis
4 min
Engineered greenhouse gas removals will become "a major new infrastructure sector" in the coming decades says the UK's National Infrastructure Commission

Carbon dioxide removal revenues could reach £2bn a year by 2030 in the UK with costs per megatonne totalling up to £400 million, according to the National Infrastructure Commission

Engineered greenhouse gas removals will become "a major new infrastructure sector" in the coming decades - although costs are uncertain given removal technologies are in their infancy - and revenues could match that of the UK’s water sector by 2050. The Commission’s analysis suggests engineered removals technologies need to have capacity to remove five to ten megatonnes of carbon dioxide no later than 2030, and between 40 and 100 megatonnes by 2050.

The Commission states technologies fit into two categories: extracting carbon dioxide directly out of the air; and bioenergy with carbon capture technology – processing biomass to recapture carbon dioxide absorbed as the fuel grew. In both cases, the captured CO2 is then stored permanently out of the atmosphere, typically under the seabed.

The report sets out how the engineered removal and storage of carbon dioxide offers the most realistic way to mitigate the final slice of emissions expected to remain by the 2040s from sources that don’t currently have a decarbonisation solution, like aviation and agriculture. 

It stresses that the potential of these technologies is “not an excuse to delay necessary action elsewhere” and cannot replace efforts to reduce emissions from sectors like road transport or power, where removals would be a more expensive alternative.  

The critical role these technologies will play in meeting climate targets means government must rapidly kick start the sector so that it becomes viable by the 2030s, according to the report, which was commissioned by government in November 2020. 

Early movement by the UK to develop the expertise and capacity in greenhouse gas removal technologies could create a comparative advantage, with the prospect of other countries needing to procure the knowledge and skills the UK develops.

The Commission recommends that government should support the development of this new sector in the short term with policies that drive delivery of these technologies and create demand through obligations on polluting industries, which will over time enable a competitive market to develop. Robust independent regulation must also be put in place from the start to help build public and investor confidence.

While the burden of these costs could be shared by different parts of industries required to pay for removals or in part shared with government, the report acknowledges that, over the longer term, the aim should be to have polluting sectors pay for removals they need to reach carbon targets.

Polluting industries are likely to pass a proportion of the costs onto consumers. While those with bigger household expenditures will pay more than those on lower incomes, the report underlines that government will need to identify ways of protecting vulnerable consumers and to decide where in relevant industry supply chains the costs should fall.

Chair of the National Infrastructure Commission, Sir John Armitt, said taking steps to clean our air is something we’re going to have to get used to, just as we already manage our wastewater and household refuse. 

"While engineered removals will not be everyone’s favourite device in the toolkit, they are there for the hardest jobs. And in the overall project of mitigating our impact on the planet for the sake of generations to come, we need every tool we can find," he said.

“But to get close to having the sector operating where and when we need it to, the government needs to get ahead of the game now. The adaptive approach to market building we recommend will create the best environment for emerging technologies to develop quickly and show their worth, avoiding the need for government to pick winners. We know from the dramatic fall in the cost of renewables that this approach works and we must apply the lessons learned to this novel, but necessary, technology.” 

The Intergovernmental Panel on Climate Change and International Energy Agency estimate a global capacity for engineered removals of 2,000 to 16,000 megatonnes of carbon dioxide each year by 2050 will be needed in order to meet global reduction targets. 

Yesterday Summit Carbon Solutions received "a strategic investment" from John Deere to advance a major CCUS project (click here). The project will accelerate decarbonisation efforts across the agriculture industry by enabling the production of low carbon ethanol, resulting in the production of more sustainable food, feed, and fuel. Summit Carbon Solutions has partnered with 31 biorefineries across the Midwest United States to capture and permanently sequester their CO2 emissions.  

Cory Reed, President, Agriculture & Turf Division of John Deere, said: "Carbon neutral ethanol would have a positive impact on the environment and bolster the long-term sustainability of the agriculture industry. The work Summit Carbon Solutions is doing will be critical in delivering on these goals."

McKinsey highlights a number of CCUS methods which can drive CO2 to net zero:

  • Today’s leader: Enhanced oil recovery Among CO2 uses by industry, enhanced oil recovery leads the field. It accounts for around 90 percent of all CO2 usage today
  • Cementing in CO2 for the ages New processes could lock up CO2 permanently in concrete, “storing” CO2 in buildings, sidewalks, or anywhere else concrete is used
  • Carbon neutral fuel for jets Technically, CO2 could be used to create virtually any type of fuel. Through a chemical reaction, CO2 captured from industry can be combined with hydrogen to create synthetic gasoline, jet fuel, and diesel
  • Capturing CO2 from ambient air - anywhere Direct air capture (DAC) could push CO2 emissions into negative territory in a big way
  • The biomass-energy cycle: CO2 neutral or even negative Bioenergy with carbon capture and storage relies on nature to remove CO2 from the atmosphere for use elsewhere

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