new page on this blog

Hi, click on the label above to see "my friends projects". Works, thesis and more rise from contacts starts on by TWs blog.

EPA publications list

The US Environmental Protection Agency (EPA) also works on wetland systems. This link drive you to the EPA wetlands programs http://water.epa.gov/type/wetlands/index.cfm where you can find a lot of information on the  "wetland's world", from natural to treatment weltand, from why they are valuable to how EPA protect them..

Here below the links to the complete publications list

1) http://water.epa.gov/type/wetlands/restore/cwetlands.cfm

a) the useful Manual of CW treatment of municipal wastewaters:
 (http://water.epa.gov/type/wetlands/restore/upload/2004_12_20_wetlands_pdf_Design_Manual2000.pdf)
b) and the link to the North American Database (NADBVersion2): http://firehole.humboldt.edu/wetland/twdb.html

2) another link to publications:  http://water.epa.gov/type/wetlands/wetpubs.cfm
This list include general information as " HANDBOOK OF CONSTRUCTED WETLANDS FOR AGRICULTURE, DOMESTIC, COAL MINES ETC" and other following useful texts.

your TWs into the home. Yes it is possible!

Here another good reading about TWs, taken from http://inhabitat.com/ and writen by Jessica Dailey.

"When you think of a wastewater treatment plant, you probable picture a vast, unsightly pool surrounded by a concrete facility. You probably do not picture a serene wetland in the lobby of an office building, but that’s exactly how sewage will be treated in the new building of the San Francisco Public Utilities Commission. Design by Worrell Water Technologies, the constructed wetland, called Living Machine, will clean the building’s wastewater to make it suitable for reused in toilets, irrigation, and maintenance.
A Living Machine (http://www.livingmachines.com and http://www.worrellwater.com/) system mimics a tidal wetland, one of nature’s most productive ecosystems.

The constructed wetland is just one of many green technologies that the San Franscisco Public Utilities Commission will be implementing in its new 13-story building. The structure will also generate its own energy through solar panels and wind turbines."

I can add that also wastewatergardens (http://www.wastewatergardens.com/) build functionally and beautiful TWS in Indonesia and this is not a design.. this is real. FANTASTIC!

(Ph. F. Cattin wastewatergardens.com)

GlobalNet21 - a network for the 21st Century

ALso GlobalNet21 write about treatment wetlands with the artlcle by  Pamela on Monday, 10 May 2010 titled "Constructed wetlands: Potential and Benefits". See the full text at  http://21st-centurynetwork.com/blog/?p=2876.


GlobalNet21 started as 21st Century Network in April 2007 to discuss some of the great issues of the 21st century and then follow this up with further debate and action. It is about enlarging the Public Square where debate takes place using social networks to bring new audiences of people into that debate.
GlobalNet21 believes that the coming century will be one of the most critical facing the human race and that if we do not tackle the great inequalities within societies and between them then the future will be one of conflict and turmoil. GlobalNet21 embraces the humanistic values of global compassion, personal self-discovery, shared development, planetary concern and a love of community; and it is committed to a more equal society where all are valued.

thanks to:

YES, thanks to the following for their citation and friendship:


a) Kunihiko Kato, my japanese collegue and friends:
His new web site is also in english. He works on Reed NET Co, Ltd http://reed-net.com/eindex.php. 
He build and make research on treatment wetlands for animal and agroindustry wastewaters. His wetlands are really good and treat a lot!


b) rainbow water coalition: 
http://rainbowwatercoalition.blogspot.com: a beautiful, complete and really interesting blog with a lot of news on greywater. The Rainbow Water Coalition received an honorable mention as one of the top 30 water blogs. See all the winners at http://www.siswebs.org/water/story.php?title=30_Best_Water_Blogs.
Take a look to the interesting "Colors of water"
The full post  ( http://rainbowwatercoalition.blogspot.com/search?updated-max=2011-01-22T10:22:00-08:00&max-results=5


c)  landscape architecture:
http://landscapearchitecture.tumblr.com/: Thanks for put into this web a link to the post of the modular system for stormwater treatment.

what about on google search?

Here below an easy table about  the results of google search with the terms of "wetland world".

[Ferrari have 193.000.000 pages, Paris Hilton 64.100.000 pages, Cannondale bikes 8.700.000 pages, Activated sludges 2.640.000 pages, Solar panel 6.970.000 pages]

results for " special offer" on wetland design

Ok, the two trial months are gone. Thanks a lot to everyones that contact me for questions (a lot of people for fast questions) and project design (Joe from US, Magdalena from Poland, Tamara from Brasil).

special offers for January and February 2011

We live in the 2.0 world, we are in the cloud computing system, in US there is a test with 60000 laptops without hard disk... well I run this time and for this first two months of 2011 I offer a free of charge first step design.


CONTACT ME I will tell you which could be the best treatment wetland systems for your needs, I'll tell you the surface need, the management needs and more.


After this first stage we can build up together an executive project, the engeneering aspect  and search funds (if available) or still be friends!!


                                                 greetings and all the best

treatment wetlands and winery wastewaters

Wastewater of wineries are usually stored some months in tanks or ponds and periodically disposed on the farm’s fields or in the vineyards. This application has a dubious agronomic benefit, because great water amounts with low nutrient concentration (in terms of nitrogen and phosphorus which will be uptake by the crops) are spread. This practice is also typical for the wineries and wrongly considered as the only solution to the wastewaters management. 

The winery wastewater production is not regular during the year, and the production range from the end of the Summer to the end of Winter. During this period the application of wastewater to the fields is usually forbidden by the State regulations and by the European best management practices. It is hence necessary build up big tanks or accumulation basins to collect all the effluents produced and spread them in spring time.

Because of these the farmers must build up big tanks or accumulation basin to collect all the effluents product and spread it in Spring time.

To improve the winery management during the harvest and postharvest time, a possibility is to treat the effluents with the constructed wetlands.

Treatment wetland for winery wastewater in central Italy (one month after planting)

The winery produces two kind of wastewaters: waters from the washing of floors and open areas, and waters from the washing of machinery, bottles and storage tanks. Shepherd  (2001) refer a production of 3 litres of wastewaters for each litre of vine product. These waters are characterized by low pH value (5-6), high COD and BOD₅ content (respectively 1000-45000 mg L^-1 and 300-4000 mg L^-1). The main organic loads are in the first time water flow. With these range inlet and flows values the CW has great potential in the treatment of this kind of polluted water. Masi (2000) and Shepherd (2001) reports large successful application of CW to treat the winery effluents, respectively in Italy and California.

more than 6750 pages view...

Thanks a lot for your interest on treatment wetlands... more than 8400 pages viewed until today  from more than 100 Countries. Is a great target for me! thank you so much, Davide

Vetiver: sewage and wastewater treatment in Banda Aceh

Another good example about reconstruction after natural disaster. A project in Indonesia had set up a real sanitation construction after tsunami. Great...good work!


A summary from "Assessment of Sanitation Standards in Reconstruction in Aceh"  by Norm van’t Hof  - www.bicg.org :

Reconstruction in Aceh provides an opportunity; to Assess the International Aid & Development Community’s capacity to deliver Sustainable Sanitation in the Developing World.
• In the majority of reconstruction projects, sanitation systems, which comply with Indonesian Law or effectively protect public and environmental health, were not installed. 
• Assessment results indicate that, in most cases, International Aid & Development Organizations & Agencies were not able to implement legal/sustainable sanitation systems. This illuminates a skills-gap in a core technical sector of International Aid and Development.
• A few reconstruction projects did successfully implement sustainable/legal sanitation systems.

Vetiver grass is being widely used in wetlands and leach fields in Aceh for two main reasons.  

a) Firstly, although wetland plants, reeds, rushes and cattails, are usually recommended, Acehnese living in wetland environments view these plants as invasive weeds and as such they are not acceptable in household gardens.  

b) Secondly, vetiver has the desired characteristics needed in biological treatment systems. It has a massive root system, which effectively harvests nutrients, it produces biomass quickly and it can live in high moisture and nutrient rich environments.

more information on http://www.vetiver-indonesia.com/sanitation.htm

VETIVER plant and wastewater treatment

Vetiveria zizanioides. This plant, commonly known as vetiver grass, is a clump grass originating in south India. There are many cultivars of vetiver grass but those originating in south India are sterile and non invasive. 

This plant have a long and strong root system that is usually use for soil erosion control, slope protection, agriculture improvement and also wastewater treatment.

The Vetiver grass will tolerate high levels of nitrates, phosphates, heavy metals, and agricultural chemicals.  Can be used for treating wastewater, rehabilitating mine tailings, stabilizing landfills and general rubbish dumps. The plants takes up the toxic materials and confines the contaminates to the effected area.


Here below some photos about applications for water treatment:

(photo: Truong, THE VETIVER SYSTEM

 FOR

IMPROVING WATER QUALITY)

I also use vetiver in a research for aquaculture wastewater treatment with floating wetlands.
And the Dick Grimshaw (Founder and Chairman of The Vetiver Network International) send me, when I was an university student, a lot of books and paper related to vetiver plants and his use. It was 1995.


More dwnld books and publications, photos and articles could be found at http://www.vetiver.org/g/pubs.htm


More on applications and all about THE VETIVER SYSTEM at www.vetiver.org

Natural wetlands and Human population

From Wetlands International an useful book about wetlands and the world that twist around them. This  provides a baseline understanding of how people and wetlands are connected, why these linkages are vital and how they can be better managed.

Wetlands and Water, Sanitation and Hygiene (WASH) 
Understanding the linkages


From Chapter 1 - Introduction:

" People’s health and well being are influenced by water supply, sanitation and hygiene WASH).  Interventions to improve these have long been an important aspect of the development agenda. Such interventions are normally based on a community’s needs and local conditions, but in the past they have generally not taken into account linkages with and effects upon the surrounding natural environment and its water sources. Yet WASH interventions interact with natural water sources, such as wetlands in a number of ways:
1. water resources, of a certain quality, are tapped as a source of water inflow;
2. waste flows, usually in the form of lower quality water, are produced and discharged;
3.  the natural system receiving the discharge is often either the same as, or connected upstream or downsteam, to the original water resource.




from Box 4.1 The capacity of wetlands to treat waste water
"When a critically high load of pollutants enters a wetland it changes the balance between the various naturally occurring processes. If its treatment capacity is rapidly exceeded, the ecology of the wetland system can exhibit a sudden, drastic change often involving a shift in species dominance and species composition.  If there is a steady overloading of the system, this can result in a gradual shift in species composition that will slowly compromise the ability of the wetland to provide water treatment and degrade the important provisioning services of the wetland, such as fish production".

Wetlands International, 2010. Wetlands & Water, Sanitation and Hygiene (WASH) - understanding the linkages. 
Wetlands International, Ede, The Netherlands. 
Published by Wetlands International www.wetlands.org

treatment wetlands on landscapearchitecture.tumblr.com/

Landscapearchitecture is a beautiful web site with a lot of link on design and arch realizations. Well, now there are also some link about treatment wetlands!!! very good!!! Here the link (see page 4):


http://landscapearchitecture.tumblr.com/


xxx

a good example from Germany!

a new publication on constructed wetland:


Technology Review | Constructed wetlands
Overview of subsurface flow constructed wetlands for greywater and domestic wastewater t reatment in developing countries.


From the foreword:

"This publication is an important contribution of the GTZ program “Sustainable sanitation – ecosan” towards the topic of constructed wetlands in developing countries as it provides valuable guidance on using this technology in developing countries for domestic wastewater treatment. The program is commissioned by the German Federal
Ministry for Economic Cooperation and Development (BMZ). 
The ecological sanitation (ecosan) approach is able to address both: child health which needs to be improved through better household sanitation and  wastewater treatment, and sustainable management and safe recycling".

A very beautiful and interesting publication that reports a lot of examples, a  complete summary on wetland treatment systems and the best pre.treament, and a full bibliography.!!!


You can find it here:
http://www.susana.org/docs_ccbk/susana_download/2-930-gtz2010-en-technology-review-constructed-wetlands.pdf

The ZER0-m Project

A key idea in Zer0-M is to integrate water supply, wastewater treatment and reuse. Systems shall be developed which minimise freshwater and potable water consumption but make best-quality freshwater available for high-grade use, e.g. drinking. 
On the other side wastewater shall be treated specifically for the planned reuse purpose. All resources contained in the wastewater, namely water and nutrients, shall be reused. The aim is to introduce "low tech - high concept" solutions developed for small communities.

Treatment of components with low tech and low cost treatment processes are:

• constructed wetlands
• anaerobic digestion
• biomembrane treatment
• waste stabilisation ponds
• composting of sludge and night soil

Reuse:

• reuse of treated wastewater for minor domestic purposes as flushing, garden watering but also crop irrigation or landscaping.
• reuse of nutrients in agriculture and gardening
• rainwater harvesting and reuse options

Several technologies are already available, which allow efficient wastewater treatment and re-use without hygienic risks on a low-cost and easy-to-handle kovach level. These includes sanitation systems with low water consumption, separation of grey and black water, biological treatment of grey water and reuse for non-drinking purposes (e.g. irrigation), bio-membrane reactors for intense treatment, constructed wetlands for extensive treatment, sludge hygienisation for re-use as fertiliser.

The Project was funded by the EU commission, Meda Water programme, Euro Mediterranean Programme for Local Water Management.

Here below two examples of the Technological Demonstration Centres:

(Source: http://www.zer0-m.org/ )

THE SCIENCE BARGE - NEW YORK

New York Sun Works designed and built ‘The Science Barge’ on the Manhattan waterfront in 2006, and operated the facility for three years. The Science Barge was the first demonstration of high yield, commercial grade urban food production with near zero net carbon emissions. Off-grid and off-pipe, the hydroponic greenhouse on The Science Barge was powered by wind and solar, heated with vegetable oil, and irrigated by rainwater. The barge has been featured by National Geographic, Science, Dan Rather Reports, ABCWorld News, Le Monde, Urban Land, Sustain, and Good, among dozens of other national and international media. The Science Barge is currently operated by a local organization in Yonkers, NY. (SOURCE : http://nysunworks.org/ ).

Well, is obviously that in a project like this.... THERE IS A TREATMENT WETLAND! look at the photos below:

Greywater Reuse

The Potential of Greywater Systems to Aid Sustainable Water Management

As pressures on freshwater resources grow around the world and as new sources of supply

become increasingly scarce, expensive, or politically controversial, efforts are underway to

identify new ways of meeting water needs.

Greywater is distinguished from more heavily contaminated “black water” from toilets. In many utility systems around the world, greywater is combined with black water in a single domestic wastewater stream. Yet greywater can be of far higher quality than black water because of its low level of contamination and higher potential for reuse.

When greywater is reused either onsite or nearby, it has the potential to reduce the demand for new water supply, reduce the energy and carbon footprint of water services, and meet a wide range of social and economic needs.

In particular, the reuse of greywater can help reduce demand for more costly high-quality potable water.

A greywater system, on the other hand, captures water that has been used for some purpose, but has not come into contact with high levels of contamination, e.g., sewage or food waste. This

water can be reused in a variety of ways. For instance, water that has been used once in a shower, clothes washing machine, or bathroom sink can be diverted outdoors for irrigation.

There are pilot greywater systems that divert greywater from showers and sinks into treatment wetlands or other plant- and soil-based filters. For example, in Berlin, Germany, a 60 square meter engineered wetland constructed in the courtyard of a housing settlement has been operating successfully for eight years (Nolde Grey Water Recycling).

Greywater from bath tubs, showers, sinks, and washing machines enters the plant-covered soil filter where it undergoes biological treatment. Ultra violet disinfection has been included as a final safety measure before the use in toilet flushing (Deutsche BauBeCon, 1995, 1996). Extensive investigations over several years of operation have shown that within the soil filter, E. coli concentrations were reduced by over 99% and all hygiene requirements have been achieved under the EU-Guidelines for Bathing Waters.

(source: http://www.pacinst.org/reports/greywater_overview/greywater_overview.pdf )

treatment wetlands are a good option after natural disasters

Treatment wetlands are a good technology. This kind of treatment system could be implemented fastly after natural disasters. The tsunami of December 2004 destroyed infrastructure in many coastal areas in SouthEast Asia. In January 2005 the Danish Government gave a tsunami relief grant to Thailand to reestablish the wastewater management services in some of the areas affected by the tsunami through the development of appropriate wastewater collection and treatment systems. The centralised, highly engineered wastewater treatment systems that have been established in Thailand and other South-East Asian countries during the past decades have generally been largely disappointing.

Well, Prof. Hans Brix designed one of the most beautiful treatment wetland plant. This have the shape of a butterfly and a flower.

The wastewater management system comprises a separate wastewater collection system, an underground pumping station, siphon distribution systems, polishing ponds, water reuse storage tanks, and three types of constructed wetlands: vertical subsurface flow wetlands, horizontal subsurface flow wetlands, and free-water surface flow wetlands. The chosen design segments each phase of the treatment process into a different portion of the flower and butterfly, and beautiful flowers, such as Cannae and Heliconia, are planted in the wetlands to make it

aesthetically pleasing.

(text source: http://www.ecowaterinfra.org/knowledgebox/documents/

CW%20in%20Tsunami%20affected%20area.pdf)

Decentralised wastewater management using constructed wetlands in Nepal

In Nepal, the Environment and Public Health Organization (ENPHO) with technical support from a Nepali Ph.D Scholar from University of Natural Resource and Applied Life Sciences Vienna introduced CW for wastewater treatment in 1997 by constructing the first plant at Dhulikhel Hospital (Shrestha, 1999).

Since then, the interest in this technology has been growing and more than a dozen constructed wetlands have been established for various applications such as the treatment of hospital wastewater, grey water, septage, landfill leachate, institutional wastewater and municipal wastewater.

The first constructed wetland treatment plant in Dhulikhel was designed to treat 10 m3 /day of wastewater but it is successfully treating more than four times that amount. (Shrestha et. al, 2000) Satisfied with the performance of the treatment plant, the hospital is now expanding the capacity of the plant.

Recently, ENPHO with support from the Asian Development Bank (ADB), UNHABITAT, WaterAid Nepal, Madhyapur Thimi Municipality and the local people have established the first community-based wastewater treatment system in Nepal using this technology. The Urban Environment Improvement Project (UEIP) which is being implemented in eight urban

centres with the assistance ADB is now in the process of constructing 18 more plants in these towns. A list of operating CWs in Nepal is given in Table 2. (Shrestha and Shrestha, 2004).

(text source: http://www.wateraid.org/documents/plugin_documents/decentralised_

wastewater_management_using_constructed_wetlands_in_nepal.pdf)

Europe Aid - brief summary of Dr. Koos Richelle and Gary Quince

Hi, last week I were in Bruxelles for the seminar "Water supply and wastewater treatment in EU external aid programmes". Here there where interesting presentations on different aspects on EU actions and funds.

Dr. Richelle, director general of Europe Aid (http://ec.europa.eu/europeaid/index_it.htm), held an interesting presentation. He had talk about the MDGs-goal n. 7 and target 10 (halve by 2015 the proportion of people without basic sanitation), target 31 ( proportion of people with access to improved sanitation, urban and rural).

He also report that 2,5 billion of people do not have access to sanitation.

From 2004 to 2009 the EU Commission programmes with a budget of 2,145 euro billion, gave access to improved drinking water to 32 million of persons and improved sanitation facilities to 9,5 million persons (That's great!)

Dr. Quince, director of ACP area in Europe Aid, said that in 2009 were signed contracts under EDF for 4,3 euro billion, were lunched 75 tenders for

works contracts and 125 tenders for service contracts.

the United Nations MILLENIUM DEVELOPMENT GOALS

What about the Millenium Development goals (http://www.un.org/millenniumgoals)....great targets but how many of these are really accessible with this Society?

for example the 2010 target 7B Reduce biodiversity loss, achieving, by 2010, a significant reduction in the rate of loss:

• The world has missed the 2010 target for biodiversity conservation, with potentially grave consequences
• Key habitats for threatened species are not being adequately protected
• The number of species facing extinction is growing by the day, especially in developing countries
• Overexploitation of global fisheries has stabilized, but steep challenges remain to ensure their sustainability

and what about the Target 7.C: Halve, by 2015, the proportion of the population without sustainable access to safe drinking water and basic sanitation

• The world is on track to meet the drinking water target, though much remains to be done in some regions
• Accelerated and targeted efforts are needed to bring drinking water to all rural households
• Safe water supply remains a challenge in many parts of the world
• With half the population of developing regions without sanitation, the 2015 target appears to be out of reach
• Disparities in urban and rural sanitation coverage remain daunting
• Improvements in sanitation are bypassing the poor

For the target 7.C we are still on time to run this challenge... and treatment wetlands could be one of the right ways to reach the points above to improve the sanitation on rural areas

NEWS: the modular system for stormwater treatment

The Modular Wetland System - Linear utilizes multi-stage treatment processes including the revolutionary filter media (BioMediaGREEN) for primary filtration followed by a 4th generation sub-surface flow wetland for biological remediation of stormwater treatment. The Modular Wetland System - Linear incorporates capture, screening, hydrodynamic separation, advanced media filtration, bioretention, and high flow bypass into a modular pre-cast concrete structure.

Great idea, important innovation in wetland systems. (more info at the official web site: http://www.modularwetlands.com).

significant systems in Hokkaido... they work very well!!!

Here I present some good realizations of wetland systems build in the cold Hokkaido island in Japan where Winter time is severe. My dear friend Kunihiko Kato, researcher at National Agricultural Research Center for Hokkaido Region (Japan) design six treatment wetlands for animal wastewater (pigs, dairy milking parlour) and agroindusty (potato starch processing). The photos below show the plants before and after plants growing, how they are integrated in the environment and a spectacular image under snow.

Dr. Kato follow by chemical analysis the performance of all the plants and they are very good, with an average reduction of 80% for total phosphorus, 90 % for COD, 80 % for total nitrogen. Congratulation Kunihiko.

small treatment wetland

Here two particular small wetland systems build for two person, both in North of Italy. Great plants, great flowers (canna and lythrum), perfect functioning...(source www.artecambiente.it)

wastewater gardens international

I'm glad and honored to tell to everybodies that now I'm officially member of the great international team "WASTEWATER GARDENS" established by Mark Nelson at Biosphere project.


http://wastewatergardens.com/

project Fitosuini

Here again some photos of the great constructed wetland for the treatment of swine effluents. 110 m2 of bed treat 2-3 cubic meters. As soon as possible few data of the treatment performances.

more info at: http://www.fitosuini.oneminutesite.it/

the best Treatment wetlands books

I list below the best books you can use for design and understand the wetland systems (buy online onhttp://www.amazon.com/ orhttp://www.ibs.it/):

Constructed Wetlands in the Sustainable Landscape

(Craig S. Campbell, Michael Ogden)

Treatment Wetlands, Second Edition

(Robert H. Kadlec, Scott d Wallace)

Biogeochemistry of Wetlands: Science and Applications

(K. Ramesh Reddy, Ronald D. DeLaune)

Wetland Plants: Biology and Ecology

(Julie K. Cronk , M. Siobhan Fennessy)

Wastewater Treatment in Constructed Wetlands with Horizontal Sub-Surface Flow (Environmental Pollution)

(Jan Vymazal, Lenka Kröpfelová)

Small Scale Constructed Wetland Treatment Systems: Feasibility, Design Criteria and O&M Requirements (Werf Reports)

(S D Wallace, R L Knight)

Efficient Management of Wastewater, Its Treatment and Reuse in Water Scarce Countries”,

(Al Baz Ismail, Otterpohl Ralf, Wendland Claudia)