DE202006019482U1 - Plant with heat recovery from waste water to preheat the fresh water with time-shifted Frischwasserzu- and wastewater drain - Google Patents

Abstract

investment with heat recovery off Wastewater for preheating the fresh water with time-shifted Frischwasserzu- and wastewater drain, characterized in that the system is equipped with a pressure-resistant container is through a lying inside the container membrane in two separate areas is divided. The membrane allows with material separation of the two separated by the membrane Areas, an increase in volume of one area with corresponding reduction in volume of the other Area.

Description

The invention described here is used for heat recovery from wastewater of Machinery and equipment, such as Dishwashers or washer-extractors.

at the o.g. Machinery is ecological and economical establish a recovery of Heat off the wastewater for preheating the fresh water and thus to reduce energy consumption meaningful.

The maximum achievable heat recovery is in a working countercurrent heat exchanger possible. For a countercurrent heat exchanger have to Fresh and waste water flow through the apparatus at the same time. washing and dishwashers have the peculiarity that fresh water and waste water are not simultaneously or dissipated become. Furthermore, fresh and waste water in relatively short Time intervals added and removed, which made great flow rates result. A countercurrent heat exchanger, which would preheat the fresh water directly when flowing, thus requiring a large heating surface. Farther that would have to be Wastewater be kept in an intermediate buffer tank and when flowing in the fresh water with a correspondingly large additional pump through the heat exchanger depressed become.

The Invention described here causes fresh and wastewater without additional Sewage pump simultaneously through the heat exchanger. The Work, which for the promotion of fresh and waste water is required by the heat exchanger, is obtained from the pressure energy of the fresh water. So the heat exchangers one possible small heating surface needed the flow occurs of the heat exchanger with fresh and waste water as possible slowly.

• 1. Am Anschluss (A) der Waschmaschine wird das heiße Abwasser über das Ventil V1 aus der Maschine in den Membranbehälter gepumpt. Dabei wölbt sich die flexible Membrane nach oben und drückt über Ventil V3 Frischwasser in die darüber befindliche Warmwasservorlage, bis das ganze Abwasser abgepumpt ist. Bei diesem Vorgang durchströmt das Abwasser ein Siebblech, wodurch grobe Partikel die den Wärmetauscher verstopfen könnten, aufgefangen werden. Am Ende des Vorgangs werden die Ventile V1 und V3 geschlossen.
• 2. Das Wasser aus der Warmwasservorlage wird über Ventil V2 in die Maschine geleitet.
• 3. Gleichzeitig mit dem Start von 2. beginnt die Zufuhr von Frischwasser am Anschluss (C). Das Frischwasser durchströmt den Wärmetauscher und fließt dann vorgewärmt in den oberhalb der Membrane befindlichen Raum des Membranbehälters. Das Frischwasser drückt die flexible Membrane nach unten und das Abwasser unterhalb der Membrane wird dabei über Ventil V5 durch den Gegenstromwärmetauscher gedrückt. Abwasser und Frischwasser werden mit Hilfe des Frischwasserdruckes durch den Wärmetauscher gefördert. Eine Vermischung des Frischwassers mit dem Abwasser wird durch die Membrane verhindert. Während des hier beschriebenen Vorganges wird die Wärme des Abwassers an das Frischwasser übertragen. Für diesen Schritt steht genau die Zeit zur Verfügung, in der die Waschmaschine läuft, aber kein Abwasser abgelassen wird.

The invention is illustrated in principle in FIG. The operation of the heat recovery system is as follows.

• 1. At the connection (A) of the washing machine, the hot waste water is pumped out of the machine into the membrane container via the valve V1. The flexible membrane bulges upwards and presses through valve V3 fresh water into the overlying hot water template until all the wastewater is pumped out. In this process, the waste water flows through a screen plate, whereby coarse particles that could clog the heat exchanger, are collected. At the end of the process, the valves V1 and V3 are closed.
• 2. The water from the hot water supply is routed through valve V2 into the machine.
• 3. Simultaneously with the start of 2. the supply of fresh water starts at the connection (C). The fresh water flows through the heat exchanger and then flows preheated in the space located above the membrane of the membrane container. The fresh water pushes the flexible membrane downwards and the waste water underneath the membrane is pressed through valve V5 through the countercurrent heat exchanger. Wastewater and fresh water are pumped by the fresh water pressure through the heat exchanger. A mixing of the fresh water with the wastewater is prevented by the membrane. During the process described here, the heat of the wastewater is transferred to the fresh water. For this step is exactly the time available, in which the washing machine runs, but no wastewater is discharged.

Next following steps 1 to 3 after a certain number of deflation procedures (step 1) a cleaning of the screen plate required. The cleaning takes place by backwashing the Sieve. For backwashing is Step 1 performed. Valves V4 and V6 are opened and the sewage is pushed into the channel (D). The flow from under the screen plate dirt particles from.

Claims (5)

Plant with heat recovery from wastewater for preheating the fresh water at Zeitversetztem Frischwasserzu- and wastewater discharge, characterized in that the system is equipped with a pressure-resistant container, which is divided by a membrane located inside the container into two separate areas. The membrane allows, with material separation of the two separated by the membrane areas, an increase in volume of one area with a corresponding reduction in volume of the other area. Plant for heat recovery from sewage to preheat the fresh water with time-shifted Frischwasserzu- and wastewater drain, characterized in that the membrane container to a heat exchanger is connected. At the lying on one side of the membrane Area is the connection for the heat exchanger inlet of Give off heat Medium attached. On the other side of the membrane is the connection for the heat exchanger outlet of heat receiving medium of the same heat exchanger intended. Both connections can each opened with a valve and closed. Plant for heat recovery from wastewater to preheat the fresh water at Zeitversetztem Frischwasserzu- and wastewater drain, da characterized in that a sieve is present on the membrane container on the side at which the connection for the heat exchanger inlet of the heat-emitting medium is located. This sieve is arranged between the connection of the heat exchanger and the entry of the heat-emitting liquid into the membrane container. The connection of the membrane container for the entry of the heat-emitting liquid is also controlled by a valve. Plant for heat recovery from sewage to preheat the fresh water with time-shifted Frischwasserzu- and wastewater drain, characterized in that on the separation side of the screen on membrane containers a second valve is connected, whereby a backwashing of the Sieves and thus a rinse off the substances separated on the sieve are possible in the drain. Plant for heat recovery from sewage to preheat the fresh water with time-shifted Frischwasserzu- and wastewater drain, characterized in that on the side of the membrane, on which is not a sieve, next to the connection for the heat exchanger, a second over a valve to be switched connection is provided with a container for through Heat recovery heated liquid connected is.