TW201822627A - Improvement of crop cultivation system for circulating aquaculture wastewater treatment - Google Patents

Improvement of crop cultivation system for circulating aquaculture wastewater treatment Download PDF

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TW201822627A
TW201822627A TW105144256A TW105144256A TW201822627A TW 201822627 A TW201822627 A TW 201822627A TW 105144256 A TW105144256 A TW 105144256A TW 105144256 A TW105144256 A TW 105144256A TW 201822627 A TW201822627 A TW 201822627A
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tank
water
nitrification
wastewater treatment
cultivation system
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TWI607690B (en
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賴慶聰
陳坤仁
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賴慶聰
陳坤仁
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Abstract

The invention relates to an improvement of a crop cultivation system for circulating aquaculture wastewater treatment. Mainly, it is a circulating cultivation system which allows wastewater in a breeding pond to be re-used for the breeding pond and a planting bed after recycling. It comprises a first precipitation tank, a filtration nitrification tank, a second precipitation tank and a solid-liquid separation tank. Thus the wastewater in the breeding pond is purified and discharged back for use through the above tanks. Meanwhile, bottom mud can be separated for fermentation. Furthermore, purified strains can be added according to plant species in the fermentation process so that it can be cultivated into the water which can supply nutrients for plants. Then the water is introduced to spray into the planting bed. Accordingly, the wastewater having toxicity in the breeding pond can be recycled to provide the necessary complementary nutrients for plants and breeding category in the growth cycle and strengthen the immunity of species to enhance the economic capacity for agriculture and fishery.

Description

循環式養殖廢水處理之作物栽培系統改良Improvement of Crop Cultivation System for Circulating Aquaculture Wastewater Treatment

本發明係有關於一種循環式養殖廢水處理之作物栽培系統改良,尤指一種可經由回收養殖廢水而經循環處理,達到分別提供植物、養殖類於生長週期中所需的互補養分,並強化物種免疫能力為其應用發明者。The invention relates to a crop cultivation system improvement for circulating aquaculture wastewater treatment, in particular to a kind of complementary nutrient which can be provided through the recovery of the aquaculture wastewater to provide the complementary nutrients required for providing the plants and cultures in the growth cycle respectively, and strengthen the species. Immunity is the inventor of its application.

按,一般栽種蔬菜、畜牧家禽以及魚類養殖者均需要有一定的空間來從事,而上述現行作業情況大都各別分開進行,且因無法回收循環使用水資源,造成使用上的諸多不便;又現今城市居住空間土地寸土寸金,一般都市人實無太多空間可進行上述資源共生設備的作業,故有必要開發出可同時進行植物栽種、畜牧禽類及魚類養殖的資源共生設備。According to the general requirements, vegetables, livestock, poultry and fish farmers need to have a certain amount of space to carry out, and most of the above-mentioned current operations are carried out separately, and the inconvenience of use is caused by the inability to recycle and recycle water resources; Urban living space is not worth the space. In general, there is not much space for urban people to carry out the above-mentioned resource symbiosis equipment. Therefore, it is necessary to develop resource symbiotic equipment that can simultaneously carry out plant cultivation, livestock and poultry and fish culture.

如公告第M498468號一種植栽禽畜舍及養殖的資源共生設備,係包含有:一架體,係由數支直桿、橫桿所構成的層疊式架設空間;一第一植栽區,係接設於該架體的上方處;一畜牧區,係接設於該架體的中間處;一養殖區,係接設於該架體的下方處;一供水系統,係從該養殖區引出灌溉用水,且包含有一過濾器、一第一泵浦、一第一灑水部並均設於該架體上,再由數條管路串接而成多供水廻路,又該第一灑水部係接設於該第一植栽區的正上方灌溉;及一控制器,係裝設於該架體上,且電性連接該供水系統並控制該養殖區的灌溉用水。For example, Announcement No. M498468, a planting poultry house and a resource symbiosis equipment for breeding, includes: a frame, a stacked erection space composed of several straight rods and cross bars; a first planting area, The system is connected to the upper part of the frame; a livestock area is connected at the middle of the frame; a culture area is connected below the frame; a water supply system is from the culture area The irrigation water is taken out, and includes a filter, a first pump, and a first sprinkling unit, which are all disposed on the frame body, and then connected by a plurality of pipelines to form a multi-water supply road, and the first The sprinkling department is connected to the irrigation plant directly above the first planting area; and a controller is mounted on the frame body and electrically connected to the water supply system and controls the irrigation water of the culture area.

或公告第M528054號一種魚菜共生系統,其包含:一畜養池,用以提供魚類的畜養,所述畜養池具有一畜養池入水口以及一畜養池出水口,自所述畜養池的上部區域的側面處延伸進所述畜養池內以設置所述畜養池出水口;一淨水池,用以沉積畜養時所生成的生物廢棄物,所述淨水池具有一淨水池入水口以及一淨水池出水口,所述淨水池入水口與所述畜養池出水口相連接,所述淨水池入水口的高度低於所述畜養池出水口的高度,自所述淨水池的上部區域的側面處延伸進所述淨水池內以設置所述淨水池入水口,自所述淨水池的上部區域的側面處延伸進所述淨水池內以設置所述淨水池出水口;一過濾池,於所述過濾池內設置多個過濾器,用以過濾水中的雜質,所述過濾池具有一過濾池入水口以及一過濾池出水口,所述過濾池入水口與所述淨水池出水口相連接,所述過濾池入水口的高度低於所述淨水池出水口的高度,自所述過濾池的上部區域的第一側面處以設置所述過濾池進水口,自所述過濾池的上部區域的第二側面處以設置所述過濾池出水口,所述第一側面處相對於所述第二側面處;一植栽區域,用以摘種植物,所述植栽區域具有一植栽區域入水口以及一植栽區域出水口,所述植栽區域入水口與所述過濾池出水口相連接,所述植栽區域入水口的高度低於所述過濾池出水口的高度;及一儲水池,用以儲水,所述儲水池具有一儲水池入水口,所述儲水池入水口與所述植栽區域出水口相連接,所述儲水池入水口的高度低於所述植栽區域出水口的高度,並透過一抽水馬達將所述儲水池中所儲存的水輸送至所述畜養池入水口。Or Announcement No. M528054, a fish-and-food symbiosis system comprising: a livestock raising pond for providing livestock breeding, the livestock raising pond having a livestock pond inlet and a livestock pond outlet, from an upper region of the livestock pond The side surface extends into the livestock pond to set the water outlet of the livestock pond; a clean water pool for depositing biological waste generated during animal husbandry, the clean water pool has a clean water inlet and a a water pool water outlet, the water pool water inlet is connected to the livestock pond water outlet, the height of the water pool water inlet is lower than the height of the water tank outlet, the water pool a side surface of the upper portion extends into the clean pool to set the water pool water inlet, and extends into the clean water pool from a side of the upper portion of the clean water pool to set the clean water pool a water outlet; a filter tank, wherein a plurality of filters are disposed in the filter tank for filtering impurities in the water, the filter tank has a filter pool water inlet and a filter pool water outlet, and the filter pool water inlet The water pool outlet is connected The height of the water inlet of the filter pool is lower than the height of the water outlet of the clean water tank, and the water inlet of the filter pool is disposed from the first side of the upper portion of the filter pool, from the upper area of the filter pool The second side is configured to set the water outlet of the filter pool, the first side is opposite to the second side; a planting area is used for picking the plant, and the planting area has a planting area a water outlet and a watering outlet of the planting area, wherein the water inlet of the planting area is connected to the water outlet of the filtering tank, the height of the water inlet of the planting area is lower than the height of the water outlet of the filtering tank; and a water storage tank For storing water, the water storage tank has a water inlet of the water storage tank, and the water inlet of the water storage tank is connected with the water outlet of the planting area, and the height of the water inlet of the water storage tank is lower than that of the planting area. The height of the nozzle and the water stored in the reservoir is delivered to the inlet of the stock tank through a pumping motor.

然而,上述魚菜共生設備中存在有些許缺失:人為的水產養殖系統當中,由於放養了高密度的水族生物、投餵大量的飼料,而促使水中的有毒的氨氮和亞硝酸鹽持續累積,濃度上升,往往造成養殖生物中毒或使其抵抗力降低而生病死亡。雖然換水能夠降低養殖系統的含氮廢物,但長期而言,這不是一個生態上永續經營的方式,因此使用循環水系統將是未來科技化養殖的趨勢。However, there are some shortcomings in the above-mentioned fish-food symbiosis equipment: in the anthropogenic aquaculture system, the high-density aquarium is stocked and a large amount of feed is fed, which promotes the accumulation of toxic ammonia nitrogen and nitrite in the water. Rising, often causing poisoning of culture organisms or reducing their resistance to death. Although changing water can reduce the nitrogenous waste of the farming system, in the long run, this is not an ecologically sustainable way of operation, so the use of circulating water systems will be the trend of future technological farming.

緣是,發明人秉持多年該相關行業之豐富設計開發及實際製作經驗,針對現有之結構再予以研究改良,提供一種循環式養殖廢水處理之作物栽培系統改良,以期達到更佳實用價值性之目的者。The reason is that the inventor has been rich in design and development and practical production experience of the relevant industry for many years, and has researched and improved the existing structure to provide a reform of crop cultivation system for recycling aquaculture wastewater treatment, in order to achieve better practical value. By.

本發明之主要目的在於提供一種循環式養殖廢水處理之作物栽培系統改良,尤其是指一種可經由回收養殖廢水而經循環處理,達到分別提供植物、養殖類於生長週期中所需的互補養分,並強化物種免疫能力為其目的。The main object of the present invention is to provide an improvement of a crop cultivation system for recycling aquaculture wastewater treatment, in particular to a supplemental nutrient which can be recycled through the recovery of aquaculture wastewater to provide plants and cultures respectively in the growth cycle. And strengthen the immunity of species for its purpose.

本發明循環式養殖廢水處理之作物栽培系統改良主要目的與功效,係由以下具體技術手段所達成:The main purpose and effect of the improvement of the crop cultivation system for circulating aquaculture wastewater treatment of the present invention are achieved by the following specific technical means:

其主要為將養殖池中的廢水經回收處理,而能再度供養殖池及種植床使用的循環栽培系統,其包含有養殖池、硝化沉澱部、醱酵部及種植床,其中該硝化沉澱部係對應與該養殖池連結,且該硝化沉澱部包含有第一沉澱槽、過濾硝化槽及第二沉澱槽,並讓養殖池依序連結第一沉澱槽、過濾硝化槽及第二沉澱槽,以讓養殖池廢水經上述諸槽淨化水質而排回使用,該醱酵部包含有固液分離槽、菌種槽、醱酵槽、緩衝槽,以對應承接硝化沉澱部底泥,並經固液分離而進行醱酵,且於醱酵過程可根據種植物種而添加純化菌種培育成可供應植物養分的水質,再將其導入噴灑於種植床;藉此,讓養殖池中具有毒性之廢棄污水能經循環回收再利用,以能提供植物、養殖類於生長週期中所需的互補養分,並強化物種免疫能力,達到提升農漁業的經濟產能功效。The utility model relates to a recycling cultivation system which can be used for recycling the wastewater in the culture pond and can be reused for the breeding pond and the planting bed, which comprises a culture pond, a nitrification sedimentation section, a fermenting section and a planting bed, wherein the nitrification and sedimentation section Corresponding to the culture tank, the nitrification depositing portion comprises a first sedimentation tank, a filter nitrification tank and a second sedimentation tank, and the culture tank is sequentially connected to the first sedimentation tank, the filtration nitrification tank and the second sedimentation tank. The waste water of the culture pond is discharged and used for purifying the water through the above-mentioned tanks, and the fermenting part comprises a solid-liquid separation tank, a strain tank, a fermentation tank, and a buffer tank to correspondingly receive the sediment of the nitrification sediment and solidify The liquid is separated and fermented, and in the fermentation process, the purified strain can be added to the water quality of the plant nutrient according to the planting species, and then introduced into the planting bed; thereby, the culture pond is toxic. Waste sewage can be recycled and reused to provide complementary nutrients needed for plants and cultures in the growth cycle, and to strengthen the immunity of species to improve the economic productivity of agriculture and fisheries.

本發明循環式養殖廢水處理之作物栽培系統改良的較佳實施例,其中該第一沉澱槽為承接養殖池的污水,並經沉澱淨化水質。A preferred embodiment of the improved crop cultivation system for circulating aquaculture wastewater treatment according to the present invention, wherein the first sedimentation tank is a sewage that receives the culture pond and is purified by sedimentation.

本發明循環式養殖廢水處理之作物栽培系統改良的較佳實施例,其中該過濾硝化槽為承接並過濾第一沉澱槽中初步沉澱處理的污水,且投入硝化菌進行硝化作用。A preferred embodiment of the improved crop cultivation system for circulating aquaculture wastewater treatment according to the present invention, wherein the filtered nitrification tank is configured to receive and filter the preliminary sedimentation treated sewage in the first precipitation tank, and input nitrifying bacteria for nitrification.

本發明循環式養殖廢水處理之作物栽培系統改良的較佳實施例,其中該第二沉澱槽則承接過濾硝化槽內的水再次沉澱;其沉澱後之淨化液可排入回收管道。A preferred embodiment of the improved crop cultivation system for circulating aquaculture wastewater treatment according to the present invention, wherein the second sedimentation tank is subjected to water reprecipitation in the filtered nitrification tank; and the purified liquid after the sedimentation can be discharged into the recovery pipeline.

本發明循環式養殖廢水處理之作物栽培系統改良的較佳實施例,其中該醱酵部之固液分離槽為承接硝化沉澱部之第一沉澱槽、過濾硝化槽及第二沉澱槽中所沉澱的底泥,並將底泥固液分離處理,而其固液分離之上層液可排入回收管道。A preferred embodiment of the improved crop cultivation system for circulating aquaculture wastewater treatment according to the present invention, wherein the solid-liquid separation tank of the fermenting portion is a sedimentation tank in the first sedimentation tank, the filtration nitrification tank and the second sedimentation tank The sediment is separated and the solid solution is separated, and the liquid of the solid-liquid separation can be discharged into the recovery pipe.

本發明循環式養殖廢水處理之作物栽培系統改良的較佳實施例,其中該醱酵部之醱酵槽為承接固液分離後的污泥而進行醱酵,且於醱酵過程可根據種植物種,而於菌種槽培養純化菌種並添加於醱酵槽,之後,經緩衝槽而導入回收管道並能噴灑於種植床的種植床。A preferred embodiment of the improved crop cultivation system for circulating aquaculture wastewater treatment according to the present invention, wherein the fermenting tank of the fermenting portion is fermented for carrying the sludge after solid-liquid separation, and the fermentation process can be based on the plant The strain is cultured in a strain culture tank and added to the fermentation tank, and then introduced into the recovery pipeline through the buffer tank and sprayed on the planting bed of the planting bed.

本發明循環式養殖廢水處理之作物栽培系統改良的較佳實施例,其中該回收管道包含有導入於養殖池的第一回收管路、導入於種植床面的第二回收管路及噴灑於種植床植物葉面的第三回收管路者。A preferred embodiment of the improved crop cultivation system for circulating aquaculture wastewater treatment according to the present invention, wherein the recovery pipeline comprises a first recovery line introduced into the culture tank, a second recovery line introduced into the planting bed surface, and sprayed on the planting The third recycling line of the leaf plant foliage.

為令本發明所運用之技術內容、發明目的及其達成之功效有更完整且清楚的揭露,茲於下詳細說明之,並請一併參閱所揭之圖式及圖號:For a more complete and clear disclosure of the technical content, the purpose of the invention and the effects thereof achieved by the present invention, it is explained in detail below, and please refer to the drawings and drawings:

首先,本發明實際運用技術與手段,請參閱第一圖所示,為本發明循環式養殖廢水處理之作物栽培系統改良的流程示意圖,其主要包含有養殖床(11)、硝化沉澱部(1)、醱酵部(2)、種植床(3)及回收管道(4),其中:First, the practical application techniques and means of the present invention, as shown in the first figure, are schematic diagrams of the improvement of the crop cultivation system for circulating aquaculture wastewater treatment according to the present invention, which mainly comprises a culture bed (11) and a nitrification sedimentation section (1). ), the fermenting department (2), the planting bed (3) and the recycling pipeline (4), wherein:

該硝化沉澱部(1)包含有第一沉澱槽(12)、過濾硝化槽(13)及第二沉澱槽(14);該第一沉澱槽(12)連結養殖池(11)並承接養殖池(11)的污水,將污水沉澱淨化水質,而該過濾硝化槽(13)為連結承接第一沉澱槽(12)中初步沉澱處理的上層淨化水,並經過濾且投入硝化菌進行硝化作用,而該第二沉澱槽(14)則連結承接過濾硝化槽(13)內硝化作用後的水,並再次沉澱淨化水質,其沉澱後之淨化水可排入回收管道(4);The nitrification depositing section (1) comprises a first sedimentation tank (12), a filtered nitrification tank (13) and a second sedimentation tank (14); the first sedimentation tank (12) is connected to the culture tank (11) and undertakes the breeding pond (11) The sewage is used to precipitate the sewage to purify the water, and the filtered nitrification tank (13) is connected to the upper purified water which is subjected to the preliminary precipitation treatment in the first precipitation tank (12), and is filtered and put into the nitrifying bacteria for nitrification. The second precipitation tank (14) is connected to receive the water after nitrification in the filtration nitrification tank (13), and re-precipitate and purify the water, and the purified water after the sedimentation can be discharged into the recovery pipeline (4);

該醱酵部(2)包含有固液分離槽(21)、菌種槽(22)、醱酵槽(23)、緩衝槽(24),其中該固液分離槽(21)為連結承接硝化沉澱部(1)之第一沉澱槽(12)、過濾硝化槽(13)及第二沉澱槽(14)中所沉澱的底泥液,並將底泥液經固液分離處理,而其固液分離後之上層液可排入回收管道(4);該醱酵槽(23)為連結承接固液分離後的污泥液並進行醱酵,且該醱酵槽(23)一端連結菌種槽(22),另一端連結緩衝槽(24),該菌種槽(22)係為依種植物種而培養純化菌種並添加於醱酵槽(23)內,該緩衝槽(24)為接收醱酵槽(23)內醱酵完成後的抗菌液,並導入回收管道(4)而噴灑於種植床(3)。The fermenting part (2) comprises a solid-liquid separation tank (21), a strain tank (22), a fermentation tank (23), and a buffer tank (24), wherein the solid-liquid separation tank (21) is connected to undertake nitrification a sedimentation liquid (1) in the first precipitation tank (12), a filtration nitrification tank (13), and a sedimentation liquid (14), and the sediment liquid is subjected to solid-liquid separation treatment, and the solid solution is solidified. After the liquid separation, the supernatant liquid can be discharged into the recovery pipeline (4); the fermentation tank (23) is connected to the sludge liquid after the solid-liquid separation, and is fermented, and the fermentation tank (23) is connected to the strain at one end. The trough (22) is connected to the buffer tank (24) at the other end. The strain trough (22) is a cultured and purified strain according to the planting species and is added to the fermenting tank (23). The buffer tank (24) is The antibacterial liquid after completion of fermentation in the fermentation tank (23) is received and introduced into the recovery pipe (4) and sprayed on the planting bed (3).

實施說明:係在養殖池(11)內畜養一批魚類,而在種植床(3)面上種植蔬果。進一步該種植床(3)包含有蓄水槽(31),於蓄水槽(31)下方埋設有可緩衝均衡水質的基材(32),該基材(32)形成有間隔而設的隔板(33),且兩隔板(33)間形成供水流通的水道(34),且該蓄水槽(31)連結回收管道(4)連通硝化沉澱部(1)及醱酵部(2)[如第二圖所示]。Implementation note: A group of fish is raised in the breeding pond (11), and fruits and vegetables are planted on the planting bed (3). Further, the planting bed (3) includes a water storage tank (31), and a base material (32) capable of buffering a balanced water is embedded under the water storage tank (31), and the base material (32) is formed with a partition plate ( 33), and a water channel (34) for water supply and circulation is formed between the two partition plates (33), and the water storage tank (31) is connected to the recovery pipe (4) to connect the nitrification deposit portion (1) and the fermented portion (2) [such as The two figures are shown].

當養殖池(11)內於餵食後產生過多蛋白質、魚糞便、污水時,其沉落於池底的污泥會經閥門A排出作為有機基質,再將養殖池(11)中的污水導入第一沉澱槽(12),讓污水於第一沉澱槽(12)中進行初步沉澱淨化水質,而底部會沉澱含污物的底泥液,再讓上層初步淨化水導入過濾硝化槽(13)[如第一、二圖所示],於該過濾硝化槽(13)中經過濾且投入硝化菌,讓淨化水進行硝化作用,於作用後底部一樣會有些微含反應作用物的底泥液,接著,再將作用後的液體導入該第二沉澱槽(14),並再次沉澱淨化水質,其沉澱後之淨化水可排入回收管道(4);然而,該回收管道(4)上設有導入於養殖池(11)的第一回收管路(41)、導入於種植床(3)的第二回收管路(42)及噴灑於種植床(3)植物葉面的第三回收管路(43),在此,該硝化沉澱部(1)的循環處理可將該沉澱後之淨化水排入回收管道(4)的第一回收管路(41)或第二回收管路(42),讓第一回收管路(41)導回養殖池(11)中供魚類使用,或第二回收管路(42)導入種植床(3)作為栽植用水。When the culture pond (11) produces too much protein, fish manure, and sewage after feeding, the sludge that sinks at the bottom of the pond will be discharged as an organic matrix through the valve A, and then the sewage in the culture pond (11) is introduced into the first A sedimentation tank (12) allows the sewage to be preliminarily precipitated in the first sedimentation tank (12) to purify the water, and the bottom sediments the sediment-containing sediment, and then the upper preliminary purified water is introduced into the filter nitrification tank (13) [ As shown in the first and second figures, the filtered nitrification tank (13) is filtered and put into the nitrifying bacteria, so that the purified water is subjected to nitrification, and after the action, there will be some sediment containing the reaction substance at the bottom. Then, the liquid after the action is introduced into the second precipitation tank (14), and the purified water is again precipitated, and the purified water after the sedimentation can be discharged into the recovery pipeline (4); however, the recovery pipeline (4) is provided a first recovery line (41) introduced into the culture tank (11), a second recovery line (42) introduced into the planting bed (3), and a third recovery line sprayed on the plant bed (3) plant leaf surface ( 43) Here, the circulating treatment of the nitrifying and precipitating portion (1) may discharge the purified water after the sedimentation into the first recovery line (41) or the second recovery line (42) of the recovery line (4). The first recovery line (41) is led back to the culture tank (11) for use by the fish, or the second recovery line (42) is introduced into the planting bed (3) as planting water.

接著,該醱酵部(2)利用該固液分離槽(21)分別對應連結硝化沉澱部(1)之第一沉澱槽(12)、過濾硝化槽(13)及第二沉澱槽(14),並在槽與槽連結管路上分別設有閥門B、C、D,並經啟開上述閥門,讓第一沉澱槽(12)、過濾硝化槽(13)及第二沉澱槽(14)中底部所沉澱的底泥液流至該固液分離槽(21),並將底泥液經固液分離處理,使其固液分離後之上層液可經閥門E排入回收管道(4),而此上層液為排入回收管道(4)的第一回收管路(41)或第二回收管路(42),讓第一回收管路(41)導回養殖池(11)中供魚類使用,或第二回收管路(42)導入種植床的作為栽植用水。Next, the fermentation unit (2) is connected to the first precipitation tank (12), the filtration nitrification tank (13), and the second precipitation tank (14) of the nitrification sedimentation section (1) by the solid-liquid separation tank (21). And the valves B, C, and D are respectively disposed on the tank and the tank connecting pipeline, and the first valve (12), the filtered nitrification tank (13) and the second sedimentation tank (14) are opened by opening the above valve. The sediment liquid deposited at the bottom flows to the solid-liquid separation tank (21), and the bottom mud liquid is subjected to solid-liquid separation treatment, so that the supernatant liquid can be discharged into the recovery pipeline (4) through the valve E after solid-liquid separation. The upper liquid is discharged into the first recovery line (41) or the second recovery line (42) of the recovery pipe (4), and the first recovery line (41) is led back to the culture tank (11) for fish. The planting water is introduced into the planting bed using, or the second recovery line (42).

續,將固液分離後的污泥液導入醱酵槽(23),當然,於該固液分離槽(21)與該醱酵槽(23)之間亦設有一控制用的閥門F,於該醱酵槽(23)內將固液分離後的污泥液進行醱酵作用,同時,該醱酵槽(23)一端連結菌種槽(22),該菌種槽(22)為針對此季節或當下所植栽的蔬果植物種類而培養純化菌種,其純化菌種具有抗菌、抑菌的作用與功效,當於培養完成後經閥門G添加於醱酵槽(23)內一併進行醱酵,在醱酵過程完成後,經由閥門H導入該緩衝槽(24),於該緩衝槽(24)過濾與稀釋完成最後的抗菌液,並導入回收管道(4),於此主要經由閥門I導入於回收管道(4)的第三回收管路(43),且在第三回收管路(43)上設有一濾網(25),該濾網(25)為用來過濾抗菌液中過大顆粒的物質,以能讓抗菌液經第三回收管路(43)噴灑於種植床(3)植物葉面,達到抑制植物葉面的菌蟲生長有效抗菌者。Continuing, the solid-liquid separated sludge liquid is introduced into the fermentation tank (23). Of course, a control valve F is also disposed between the solid-liquid separation tank (21) and the fermentation tank (23). In the fermentation tank (23), the sludge liquid after solid-liquid separation is subjected to fermentation, and at the same time, one end of the fermentation tank (23) is connected to the strain tank (22), and the strain tank (22) is for this purpose. The purified strain is cultivated in the season or the plant and plant species planted in the current season, and the purified strain has antibacterial and antibacterial effects and effects. When the culture is completed, it is added to the fermentation tank (23) through the valve G. Fermentation, after the fermentation process is completed, is introduced into the buffer tank (24) through the valve H, and the final antibacterial liquid is filtered and diluted in the buffer tank (24), and introduced into the recovery pipeline (4), mainly through the valve I is introduced into the third recovery line (43) of the recovery line (4), and a filter (25) is provided on the third recovery line (43), and the filter (25) is used for filtering the antibacterial liquid. Oversized particles to allow the antibacterial solution to pass through The third recovery line (43) is sprayed on the plant bed (3) plant leaf surface to achieve an effective antibacterial activity for inhibiting the growth of the plant leaf surface.

然而,該緩衝槽(24)內的抗菌液也能經由閥門J而分別導入回收管道的第一回收管路(41)或第二回收管路(42),於該第一回收管路(41)上設有閥門K而導入養殖池中供魚類使用,讓魚類減少菌種感染,或第二回收管路(42)設有閥門L導入種植床(3)作為栽植用水,增加抗菌效果。However, the antibacterial liquid in the buffer tank (24) can also be respectively introduced into the first recovery line (41) or the second recovery line (42) of the recovery pipeline via the valve J, and the first recovery line (41) The valve K is placed on the culture pond for fish use, so that the fish can reduce the infection of the bacteria, or the second recovery pipeline (42) is provided with a valve L to be introduced into the planting bed (3) as a planting water to increase the antibacterial effect.

另外,該種植床(3)上亦設有閥門M及閥門N,該閥門M連結至第一回收管路(41),讓種植床(3)的水可經閥門M排入養殖池(11)中供魚類使用;而該閥門N為將沉落種植床(3)底的污泥排出作為有機基質。In addition, the planting bed (3) is also provided with a valve M and a valve N, and the valve M is connected to the first recovery line (41), so that the water of the planting bed (3) can be discharged into the breeding tank through the valve M (11) The fish is used for fish; and the valve N is used to discharge the sludge at the bottom of the planting bed (3) as an organic substrate.

實驗說明:Experimental description:

以吳郭魚分大中小分批養殖,總重100kg±20kg為例,幼魚期每日投入5kg ~10kg,中魚期每日投入4kg ~6kg,成魚期每日投入2kg~5kg,若以平均值計算,每日平均約投入5kg飼料。若假設以魚體蛋白質吸收率來看,5kg飼料約含2kg蛋白質,魚體蛋白質吸收率約50%,固投餌後約殘存1kg蛋白質。1kg(蛋白質)÷0.015(植株含氮量1.5%)=66.67kg,因此,估計每日可供66.67kg的植株氮源。Wu Guoyu is divided into large, medium and small batches, with a total weight of 100kg±20kg. For the juvenile fish period, 5kg ~ 10kg per day, medium fish period 4kg ~ 6kg, and adult fishing period 2kg ~ 5kg, if average The value is calculated, and an average of about 5 kg of feed per day is used. If it is assumed that the fish protein absorption rate is 5 kg of feed, the protein absorption rate of the fish is about 50%, and about 1 kg of protein remains after the solid feed. 1kg (protein) ÷0.015 (plant nitrogen content 1.5%) = 66.67kg, therefore, it is estimated that 66.67kg of plant nitrogen source can be used daily.

步驟一:每日投餌量5kg,約產出含蛋白質量1kg的魚糞與殘餌等汙泥;Step 1: The daily feeding amount is 5kg, about 10% of the protein containing 1kg of fish manure and residual bait;

步驟二:透過第一、第二沉澱槽、過濾硝化槽、固液分離槽等收集養殖底泥;Step 2: collecting the cultured sediment through the first and second sedimentation tanks, the filtration nitrification tank, the solid-liquid separation tank, and the like;

步驟三:過濾硝化水之澄清液一養殖與種植狀況選擇流向種植床或養殖池;Step 3: Filtering the clarified liquid of the nitrated water, selecting the culture and planting conditions to flow to the planting bed or the breeding pond;

步驟四:固液分離後之澄清液流向種植床;Step 4: the clear liquid after solid-liquid separation flows to the planting bed;

步驟五:將含蛋白質量1kg的魚糞與殘餌等汙泥搭配10kg蔗糖、800kg水與特定市售單一菌種微生物製劑(枯草桿菌、蘇力菌、白殭菌等)進行醱酵;Step 5: Fermenting the fish manure containing 1 kg of protein and the residual bait with 10 kg of sucrose, 800 kg of water and a specific commercially available single strain microbial preparation (Bacillus subtilis, S. faecalis, Beauveria bassiana, etc.);

步驟六:醱酵液於緩衝槽內進行過濾與稀釋,進行葉面噴灑或流向種植床;Step 6: The broth is filtered and diluted in a buffer tank for foliar spraying or flow to the planting bed;

步驟七:種植床出水可依魚類養殖狀況來選擇排放或回流至養殖池;養殖池水再重回步驟一持續水體的循環。Step 7: The effluent from the plant bed can be selected to discharge or return to the culture pond according to the fish culture condition; the culture pond water is returned to the step 1 to continue the circulation of the water body.

然而前述之實施例或圖式並非限定本發明之產品結構或使用方式,任何所屬技術領域中具有通常知識者之適當變化或修飾,皆應視為不脫離本發明之專利範疇。However, the above-described embodiments or drawings are not intended to limit the structure or the use of the present invention, and any suitable variations or modifications of the invention will be apparent to those skilled in the art.

藉由以上所述,本發明結構之組成與使用實施說明可知,本發明與現有結構相較之下,具有下列優點:From the above, the composition and use of the structure of the present invention show that the present invention has the following advantages as compared with the existing structure:

本發明循環式養殖廢水處理之作物栽培系統改良,讓養殖池中具有毒性之廢棄污水能經循環回收再利用,以能提供植物、養殖類於生長週期中所需的互補養分,並強化物種免疫能力,達到提升農漁業的經濟產能功效。The crop cultivation system for circulating aquaculture wastewater treatment of the invention is improved, so that the waste sewage with toxicity in the culture pond can be recycled and reused, so as to provide complementary nutrients required for plants and cultures in the growth cycle, and strengthen the species immunity. Ability to achieve the economic productivity of agricultural and fisheries.

綜上所述,本發明實施例確能達到所預期之使用功效,又其所揭露之具體構造,不僅未曾見諸於同類產品中,亦未曾公開於申請前,誠已完全符合專利法之規定與要求,爰依法提出發明專利之申請,懇請惠予審查,並賜准專利,則實感德便。In summary, the embodiments of the present invention can achieve the expected use efficiency, and the specific structure disclosed therein has not been seen in similar products, nor has it been disclosed before the application, and has completely complied with the provisions of the Patent Law. And the request, the application for the invention of a patent in accordance with the law, please forgive the review, and grant the patent, it is really sensible.

(1)‧‧‧硝化沉澱部(1) ‧‧‧Nitration and Precipitation Department

(11)‧‧‧養殖池(11) ‧ ‧ breeding ponds

(12)‧‧‧第一沉澱槽(12)‧‧‧First sedimentation tank

(13)‧‧‧過濾硝化槽(13)‧‧‧Filter nitrification tank

(14)‧‧‧第二沉澱槽(14) ‧‧‧Second sedimentation tank

(2)‧‧‧醱酵部(2) ‧ ‧ 酦 酦 部

(21)‧‧‧固液分離槽(21) ‧‧‧ solid-liquid separation tank

(22)‧‧‧菌種槽(22) ‧ ‧ bacteria trough

(23)‧‧‧醱酵槽(23)‧‧‧ fermenter

(24)‧‧‧緩衝槽(24) ‧‧‧buffer tank

(25)‧‧‧濾網(25)‧‧‧ Filter

(3)‧‧‧種植床(3) ‧‧‧planting beds

(31)‧‧‧蓄水槽(31) ‧‧ ‧ water storage tank

(32)‧‧‧基材(32)‧‧‧Substrate

(33)‧‧‧隔板(33) ‧ ‧ partition

(34)‧‧‧水道(34) ‧‧‧Waterways

(4)‧‧‧回收管道(4) ‧‧‧Recycling pipeline

(41)‧‧‧第一回收管路(41)‧‧‧First recovery line

(42)‧‧‧第二回收管路(42) ‧‧‧Second recovery line

(43)‧‧‧第三回收管路(43) ‧‧‧ Third recovery line

A~N‧‧‧閥門A~N‧‧‧ valve

第一圖:本發明之流程示意圖First: Schematic diagram of the process of the present invention

第二圖:本發明之種植床架構示意圖Second: Schematic diagram of the plant bed structure of the present invention

Claims (10)

一種循環式養殖廢水處理之作物栽培系統改良,其主要包含有養殖池、硝化沉澱部、醱酵部、種植床及回收管道,其中:   該硝化沉澱部包含有第一沉澱槽、過濾硝化槽及第二沉澱槽;該第一沉澱槽連結該養殖池並承接該養殖池的污水,將污水沉澱淨化水質,而該過濾硝化槽為連結承接該第一沉澱槽中初步沉澱處理的上層淨化水,並經過濾且投入硝化菌進行硝化作用,而該第二沉澱槽則連結承接該過濾硝化槽內硝化作用後的水,並再次沉澱淨化水質,其沉澱後之淨化水可排入該回收管道;   該醱酵部包含有固液分離槽、菌種槽、醱酵槽、緩衝槽,其中該固液分離槽為連結承接該硝化沉澱部之該第一沉澱槽、該過濾硝化槽及該第二沉澱槽中所沉澱的底泥液,並將底泥液經固液分離處理,而其固液分離後之上層液可排入該回收管道;該醱酵槽為連結承接固液分離後的污泥液並進行醱酵,且該醱酵槽一端連結菌種槽,另一端連結緩衝槽,該菌種槽係為依種植物種而培養純化菌種並添加於該醱酵槽內,該緩衝槽為接收該醱酵槽內醱酵完成後的抗菌液,並過濾與稀釋再導入該回收管道,而噴灑於該種植床。The invention relates to a crop culture system for recycling aquaculture wastewater treatment, which mainly comprises a culture pond, a nitrification sedimentation section, a fermenting section, a planting bed and a recycling pipeline, wherein: the nitrification sedimentation section comprises a first sedimentation tank, a filter nitrification tank and a second sedimentation tank; the first sedimentation tank is connected to the culture tank and receives the sewage of the culture tank, and the sewage is precipitated to purify the water, and the filtration nitrification tank is connected to the upper purified water which is subjected to the preliminary precipitation treatment in the first precipitation tank. And filtering and inputting nitrifying bacteria for nitrification, and the second sedimentation tank is connected to receive water after nitrification in the filtered nitrification tank, and re-precipitating and purifying water quality, and the purified water after the sedimentation can be discharged into the recovery pipeline; The fermenting part comprises a solid-liquid separation tank, a strain tank, a fermentation tank, and a buffer tank, wherein the solid-liquid separation tank is connected to the first precipitation tank, the filtration nitrification tank and the second a sediment solution precipitated in the sedimentation tank, and the sediment solution is subjected to solid-liquid separation treatment, and after the solid-liquid separation, the supernatant liquid can be discharged into the recovery pipeline; the fermentation tank is The sludge is subjected to solid-liquid separation and fermented, and one end of the fermentation tank is connected to the strain tank, and the other end is connected to the buffer tank, and the strain is cultured and purified according to the planting species and added to In the fermentation tank, the buffer tank receives the antibacterial liquid after completion of fermentation in the fermentation tank, and is filtered and diluted and introduced into the recovery pipeline, and sprayed on the planting bed. 如申請專利範圍第1項所述之循環式養殖廢水處理之作物栽培系統改良,其中該回收管道包含有導入於該養殖池的第一回收管路、導入於該種植床面的第二回收管路及噴灑於該種植床植物葉面的第三回收管路,且上述該些回收管路上設有閥門K、L、I者。The improved crop cultivation system for circulating aquaculture wastewater treatment according to claim 1, wherein the recovery pipeline comprises a first recovery pipeline introduced into the culture tank, and a second recovery pipe introduced into the planting bed surface. And a third recovery pipeline sprayed on the foliage of the planting plant, and the valves K, L, and I are disposed on the recovery pipelines. 如申請專利範圍第1或2項所述之循環式養殖廢水處理之作物栽培系統改良,其中該硝化沉澱部之該第一沉澱槽、該過濾硝化槽及該第二沉澱槽對應連結該固液分離槽的管路上分別設有閥門B、C、D。The improved crop cultivation system for circulating aquaculture wastewater treatment according to claim 1 or 2, wherein the first precipitation tank, the filtration nitrification tank and the second precipitation tank of the nitrification depositing portion are connected to the solid liquid Valves B, C, and D are respectively disposed on the pipelines of the separation tank. 如申請專利範圍第2項所述之循環式養殖廢水處理之作物栽培系統改良,其中該第三回收管路上設有一濾網,該濾網為用來過濾抗菌液中過大顆粒的物質者。The improved crop cultivation system for circulating aquaculture wastewater treatment according to claim 2, wherein the third recovery line is provided with a sieve, which is a substance for filtering excessive particles in the antibacterial liquid. 如申請專利範圍第3項所述之循環式養殖廢水處理之作物栽培系統改良,其中該種植床進一步設有閥門M及閥門N,該閥門M連結至該第一回收管路,讓種植床的水可經閥門M排入該養殖池中供魚類使用;而該閥門N為將沉落該種植床底的污泥排出作為有機基質者。The improved crop cultivation system for circulating aquaculture wastewater treatment according to claim 3, wherein the planting bed is further provided with a valve M and a valve N, the valve M being connected to the first recovery pipeline for allowing the planting bed Water can be discharged into the culture tank through the valve M for use by the fish; and the valve N is a person who discharges the sludge falling from the bottom of the planting bed as an organic matrix. 如申請專利範圍第1或2項所述之循環式養殖廢水處理之作物栽培系統改良,其中於該固液分離槽與該醱酵槽之間亦設有一控制用的閥門F。The invention relates to a crop cultivation system for recycling aquaculture wastewater treatment according to claim 1 or 2, wherein a control valve F is also disposed between the solid-liquid separation tank and the fermentation tank. 如申請專利範圍第1或2項所述之循環式養殖廢水處理之作物栽培系統改良,其中於該醱酵槽連結該菌種槽管路上設有閥門G,而該醱酵槽連結該緩衝槽管路上設有閥門H者。The improvement of the crop cultivation system for circulating aquaculture wastewater treatment according to claim 1 or 2, wherein a valve G is disposed on the fermentation tank connecting the strain channel, and the fermentation tank is connected to the buffer tank The valve H is provided on the pipeline. 如申請專利範圍第1或2項所述之循環式養殖廢水處理之作物栽培系統改良,其中於該養殖池上設有可將池底污泥排出的閥門A。The crop cultivation system for circulating aquaculture wastewater treatment according to claim 1 or 2, wherein a valve A for discharging the bottom sludge is provided on the culture tank. 如申請專利範圍第1或2項所述之循環式養殖廢水處理之作物栽培系統改良,其中該緩衝槽中設有緩衝均衡水質的基材,該基材形成有間隔而設的隔板,且兩隔板間形成供水流通的水道。The improvement of the crop cultivation system for circulating aquaculture wastewater treatment according to claim 1 or 2, wherein the buffer tank is provided with a substrate for buffering balanced water, and the substrate is formed with a partition plate, and A water channel for water supply and circulation is formed between the two partitions. 如申請專利範圍第4項所述之循環式養殖廢水處理之作物栽培系統改良,其中該緩衝槽中設有緩衝均衡水質的基材,該基材形成有間隔而設的隔板,且兩隔板間形成供水流通的水道。The improved crop cultivation system for circulating aquaculture wastewater treatment according to claim 4, wherein the buffer tank is provided with a base material for buffering balanced water, and the base material is formed with a partition plate and two partitions. A water channel for water supply and circulation is formed between the plates.
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