處理方案

處理方案
全球水問題
HUBER-全球水問題處理方案

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發布時間:2021-02-25 08:57:46
HUBER-全球水問題處理方案

  • 污水很有價值,不能只是簡單處理!
  • 污水必須處理,然后回收利用!
  • 污水是水,營養物質和能源的可靠來源地!

全球大約 11 億人口無法獲得干凈的飲用水 ,甚至大約 26 億人口生活在衛生條件很差的環境。因為飲用水受到污染,每天死亡 5.000 人口, 其中多數是孩子。

我們用水的同時,自然產生污水; 我們飲食的同時, 自然會排泄產生營養物質和有機碳化合物。正如對固體垃圾進行分類, 處理和重新回收利用一樣,我們必須以同樣方式對液體垃圾和污水進行處理。

 

 

  • 處理方案
  • 背景信息

這些處理方案必須和當地的氣候,社會結構,文化背景,技術條件,生態和經濟狀態相適應,經過長期努力工作之后才能見效。

以下是各種可持續性, 性價比很高的 HUBER-處理方案,用于水資源的循環利用:

  • MeChem?,用于性價比很高的中央污水處理
  • PondPlus?,對污水氧化池進行升級改造
  • SeptageTreat?,集中處理糞便污泥并進行回收利用
  • ClearOnSite?,高樓非集中型污水處理
  • ClearNear?,居民區半集中型污水處理

Lack of clean water and sanitation is the number one cause for epidemic diseases and deaths in developing countries. Over 5,000 people, most of them children, are killed every day by water pollution.
As the world population is growing and climatic conditions are worsening, water scarcity is rising. Over 70 % of human water consumption serves for irrigation. This percentage is bound to rise further to permit feeding growing populations in arid and semi-arid regions.
Competition for water is becoming fiercer. Lack of this precious resource is already becoming a fundamental reason for violence, population displacement and war.
Not only our fossil energy resources, but also our resources of fresh water and phosphorus are gradually depleting. Energy, water and nutrients will certainly become more expensive and less affordable for the poor.
In many regions soil fertility is gradually decreased by erosion. Soil layers become thinner. Soils loose organic carbon, and thus their water and nutrient absorbing capacity. They become less fertile and need even more irrigation and fertilizer.

SUSTAINABLE SOLUTIONS

Only sustainable solutions can mitigate these global challenges.
The only really sustainable solution is to close the loops by reuse of water, nutrients and organic carbon, and by recovery of energy. In addition, we must reduce consumption.
We have to understand that wastewater is our most dependable water resource; as we use water, we produce wastewater. As we eat, we discharge nutrients and energy-rich organic carbon. As we separate and recycle solid waste, we now must begin to separate and recycle wastewater and its ingredients.
Sustainable solutions create value from waste.

ADAPTED SOLUTIONS

Only adapted solutions can be successful. They must be adapted to regional and local conditions: climatic, environmental, social, cultural, technical, as well as economical conditions.
Solutions must be efficient and affordable. Sanitation technology developed long ago in water-rich, industrialized and wealthy countries is not suitable for arid and poor developing countries and for emerging countries. It is a terrible mistake that "conventional" sanitation technology, which is wasting a lot of fresh water as transport medium, is still employed where it should have no place.
Different solutions are required for cities with sewers, cities without sewers, small towns, suburbs, rural villages, isolated hotels, resorts, and single dwellings. Each solution must be adapted to its application.

REDUCE, TREAT AND REUSE

The ideal solution would be to treat all wastewater and reuse the effluents for irrigation. In this way, the world's fresh water consumption would be reduced by the entire wastewater flow.
Decentralized treatment is required to produce irrigation water where it is needed. Treated effluent is used for the irrigation of yards, gardens, parks, golf courses and fields in the vicinity of dwellings, office buildings, hotels or resorts.
Where not all of the wastewater is needed for irrigation, treated effluents are alternatively used as service water for flushing and washing purposes, therewith also reducing fresh water consumption.
Where more wastewater is produced than can be reused for irrigation or as service water, rain water and well treated effluents should be used for ground infiltration and groundwater replenishing wherever possible. After additional soil filtration the water can be recovered as fresh water.
Decentralized treatment and reuse make expensive and long sewer networks redundant. In addition it reduces size and costs of water lines.
Where wastewater is treated in central plants, the effluent quality should be sufficient to permit downstream reuse for irrigation or as a fresh water resource.

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HUBER-全球水問題處理方案

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就能源 / 水 – 沖突問題我們能進行那些工作?
尺寸圖 & 技術規格書

  • 污水很有價值,不能只是簡單處理!
  • 污水必須處理,然后回收利用!
  • 污水是水,營養物質和能源的可靠來源地!

全球大約 11 億人口無法獲得干凈的飲用水 ,甚至大約 26 億人口生活在衛生條件很差的環境。因為飲用水受到污染,每天死亡 5.000 人口, 其中多數是孩子。

我們用水的同時,自然產生污水; 我們飲食的同時, 自然會排泄產生營養物質和有機碳化合物。正如對固體垃圾進行分類, 處理和重新回收利用一樣,我們必須以同樣方式對液體垃圾和污水進行處理。

 

 

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這些處理方案必須和當地的氣候,社會結構,文化背景,技術條件,生態和經濟狀態相適應,經過長期努力工作之后才能見效。

以下是各種可持續性, 性價比很高的 HUBER-處理方案,用于水資源的循環利用:

  • MeChem?,用于性價比很高的中央污水處理
  • PondPlus?,對污水氧化池進行升級改造
  • SeptageTreat?,集中處理糞便污泥并進行回收利用
  • ClearOnSite?,高樓非集中型污水處理
  • ClearNear?,居民區半集中型污水處理

Lack of clean water and sanitation is the number one cause for epidemic diseases and deaths in developing countries. Over 5,000 people, most of them children, are killed every day by water pollution.
As the world population is growing and climatic conditions are worsening, water scarcity is rising. Over 70 % of human water consumption serves for irrigation. This percentage is bound to rise further to permit feeding growing populations in arid and semi-arid regions.
Competition for water is becoming fiercer. Lack of this precious resource is already becoming a fundamental reason for violence, population displacement and war.
Not only our fossil energy resources, but also our resources of fresh water and phosphorus are gradually depleting. Energy, water and nutrients will certainly become more expensive and less affordable for the poor.
In many regions soil fertility is gradually decreased by erosion. Soil layers become thinner. Soils loose organic carbon, and thus their water and nutrient absorbing capacity. They become less fertile and need even more irrigation and fertilizer.

SUSTAINABLE SOLUTIONS

Only sustainable solutions can mitigate these global challenges.
The only really sustainable solution is to close the loops by reuse of water, nutrients and organic carbon, and by recovery of energy. In addition, we must reduce consumption.
We have to understand that wastewater is our most dependable water resource; as we use water, we produce wastewater. As we eat, we discharge nutrients and energy-rich organic carbon. As we separate and recycle solid waste, we now must begin to separate and recycle wastewater and its ingredients.
Sustainable solutions create value from waste.

ADAPTED SOLUTIONS

Only adapted solutions can be successful. They must be adapted to regional and local conditions: climatic, environmental, social, cultural, technical, as well as economical conditions.
Solutions must be efficient and affordable. Sanitation technology developed long ago in water-rich, industrialized and wealthy countries is not suitable for arid and poor developing countries and for emerging countries. It is a terrible mistake that "conventional" sanitation technology, which is wasting a lot of fresh water as transport medium, is still employed where it should have no place.
Different solutions are required for cities with sewers, cities without sewers, small towns, suburbs, rural villages, isolated hotels, resorts, and single dwellings. Each solution must be adapted to its application.

REDUCE, TREAT AND REUSE

The ideal solution would be to treat all wastewater and reuse the effluents for irrigation. In this way, the world's fresh water consumption would be reduced by the entire wastewater flow.
Decentralized treatment is required to produce irrigation water where it is needed. Treated effluent is used for the irrigation of yards, gardens, parks, golf courses and fields in the vicinity of dwellings, office buildings, hotels or resorts.
Where not all of the wastewater is needed for irrigation, treated effluents are alternatively used as service water for flushing and washing purposes, therewith also reducing fresh water consumption.
Where more wastewater is produced than can be reused for irrigation or as service water, rain water and well treated effluents should be used for ground infiltration and groundwater replenishing wherever possible. After additional soil filtration the water can be recovered as fresh water.
Decentralized treatment and reuse make expensive and long sewer networks redundant. In addition it reduces size and costs of water lines.
Where wastewater is treated in central plants, the effluent quality should be sufficient to permit downstream reuse for irrigation or as a fresh water resource.

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