DE3503979A1 - Composting-process control - Google Patents

Abstract

Published without abstract.

Description

The composting process control

The invention relates to one - technical-technological through its features coordinated process block control, which is composed of conventional elements, the intentional bio-chemical and bio-thermal process in implicators, conventional rotting drums and the like, manually, semi- or fully automatic performance

and to be carried out quickly and with optimal quality.

3503971

The reliable, economical and environmentally friendly / Vectors form an advantageous result of a size not previously achieved in the aerobic microprocess of a heterogeneous one Bio-mass with possibly sludge additives and appropriate components. Because the targeted rotting process in rapid throughput with periodic input and output of moisture and organically proportionally differentiated waste in time and space, air, gas and liquid factors as a constant Trabant phenomenon - a product need with unstable values is the basis, is its continuous influence potential control the qualitative and quantitative ECO effect basis.

It is known that in the rotting process previously used in corresponding towers, drums, bio-reactors, tunnel reactors, e.g. from the companies BAV, D 6455 Erdensee; Gebr. Weiss KG, D 6340 Dillenburg; Peabody-Holmes, Thunderbrigde Hudderefield, HD 16 R 6, England; Thyssen-Engineering, D 4300 Essen; Dano

V. Stahlschmidt, CH 6224 Sorengo or even in the primitive prism method the air-exhaust gas influence can be regulated more or less can, as well as the addition of liquids or components. So far, however, this has only been possible in a cyclical manner, which is the case with the Interaction between the nature of the volume of waste and its substance-specific emissions, space, time and local scalar values results in a random result. In the case of processes with high throughput, the product relativity increases, which has a negative impact on sales burdens the cost and quality factor of the compost produced. This decrease in value oscillates, among other things, on the current waste disposal practices in an environmentally harmful manner.

This task is basically carried out in the rapid processing of organic proportions of household, garden and agricultural Waste resolved and properly secured by the composting process control, their distinctive features and advantages at the same time allow the technological goals to be achieved.

• www * · · * »W · ft«

• M * * * · t * »ft * 4

These consist, in particular, in the fact that water, sludge, components and heat transfer media are added to the basic material during the rotting process and fresh air can be introduced through its hollow shaft, as well as emitted process gases in a closed line for the purpose Cooling or inoculation can circulate, or diverted into the atmosphere via an internal filter from the rotting device will.

The technological implication of water, sludge, components as well as gassing and degassing is valve-controlled and is controlled by means of the Hollow shaft and reaction hollow shaft completed, which can also be used for axial bearings.

Fig. 1 shows a construction example in a schematic axial longitudinal section. The composting process control shown in Fig. 1 Shown schematically as a construction example - consists essentially of one - in the base mass storage 1 centrally arranged reaction hollow shaft 5, which in existing, equipped with support base 2 a, task sludge 3 and outlet channel 4 Front shields 2 stored - through their centrally placed power-permeable partition 7 the interior of the with primary and secondary transition openings 5 a, 5 b provided drum hollow shaft 1 flexibly divides, the reaction shaft 6 on upper outer jacket area with the inlet openings 6 a, 6 b, the valve holder 8 is arranged in which the valve holder 8 is coordinated axially of the circuit - Supported by valve sliding pressure springs 8 b - the valve shells 8 a sit resiliently, the filter pad 8 c supporting - at the same time are connected to the sewage collection line 15, which with a gradient in the direction of waste water flow shut-off valve 15 a the additional water component line 16 is connected below the main valve 16 a, as well as the inlet connection 15 e with Stopcock, the component primary feed line 17 with valve 17 a and the component secondary feed line 17 b with valve 17 c, wherein feed lines 17, 17 b - passed through the attachment flap 11 into the interior of the reaction hollow shaft 6 - via their inlet openings 6 a have their exit without disturbing the gas circulation, which - like those by means of valves 16, 15 a, 15 b, 17 a, 17 b, 17 c - is steered, and that via the fresh air duct 13, which is made up of - built in transversely in the middle in the outlet part of the reaction hollow shaft 6 Zone wall 9 results, one mouthpiece half of which is free

is - but the other is closed and with a vapor exhaust outlet 14, 14 a ends, with an articulated connection 10 a at the other end of the zone wall 9, a flow direction plate 10 carries, which in both final positions on the area-matched mounted support 10 b for sealing concerns comes; a - as in the technological interaction of transition openings 5 a, 5 b with the inlet openings 6 a, 6 b secured demand-controlled forced circulation - upon entry, circulate and escape of the gases permitted, in which these displaced are through the fan blade 12 b, which is on its transmission gear 12 a sits, which hangs in the front part of the reaction hollow shaft 6 fixed fan ring 12 and means Reduction cardan shaft 11 b connected to the blower reduction drive 11 a attached outside of the forehead cap 11 is.

The reaction hollow shaft 6 can additionally be supported as a support element on one or both sides on support brackets 18, which comes to rest as an alternative necessity in the eventual upstream connection of conventional basic goods input sluices or conventional raw product discharge sluices, shown in the construction example Fig. 1 - alternatively composed of items 6-18 - shown is. The composting process control serves the structural quality effect and the increase in throughput in the microprocess-optimal interaction of bio-chemical and bio-thermal components In a coordinated space and time unit on rotting household waste or forest, garden, agricultural waste. This heterogeneous mass, which is already preselected upon delivery and possibly processed accordingly in the technological Rotterdam space is introduced and enforced quickly or cyclically, develops an aerobic process with micro-biological and biothermal Reaction. This reaction is stimulated and controlled by the supply of fresh air in direction "X" by means of a fresh air duct 13 via the flow direction flap folded from A to B in gravitational flow or by means of fan blades 12 b in Forced flow, which, for example, through the primary inlet opening 6 a via the primary transition opening 5 a in the above the base mass in the technological Rotterdam area - at its

Depression during the recirculation process of the rotting drum - yourself forming free space. Pressed this flush further, the gas mixture passes through the secondary transition opening 5 b and secondary Influence opening 6 b into the circulation zone formed by the zone wall 9 around from there either with the inflow screen 14 a open to get into the vapor exhaust gas outlet 14 in direction "Y" - with partial slide opening 14 a in throttled form or with closed slide 14 a and from A to B folded flow direction flap 10 to circulate in the "Y" direction, warming, cooling or infecting the rotting mass as required. The Directional sense achieved through the zone separation by means of diaphragm 7 and the direction of rotation of the fan blade 12b. The addition of Fresh water or liquid components via line 16 a with the main valve 16 open and the waste water shut-off valve closed 15 a and waste water outlet shut-off valve 15 b, however, the primary additional line valve 17 c or the secondary additional line valve open as required 17 a - takes place by means of the primary additional line 17 and the secondary additional line 17 b. over these lines can also for economic or technological reasons - by opening the waste water shut-off valve 15 a and closing the main valve 16 and Ausflußabsperrhahns 15 b - the biologically enriched wastewater is recycled, which is on the laden Rotterdam room floor construction example - collects when it is located above - via the filter cushions 8 c and valve shells 8 a caught - by means of the latter connecting sewer collecting line 15 in the direction of "F" - drained.

With a larger number - in the primary and secondary rotting drum halves modularly attached inlet openings 6 a, 6 b and transition openings 5 a, 5 b with associated filter shells 8 a or Lines with valves according to construction example 17, 17 b, the control fineness can thus enabled fragmentary bio-mass influence can be increased.

Claims (2)

Claims 1. The composting process control used for the Structure-quality-effect in the microprocess-optimal interaction of bio-chemical and bio-thermal components in a coordinated Unit of space and time, on a raw compost base mass containing ballast such as predestined garbage, or forest, Garden and agricultural waste, whose solid-part elementary statics with the particulate influence of the satellite synchronous kinetics of the conventional rotting drums / or similar devices with possible mechanical ones Improving performance through basic goods input sluices or raw product exit sluices, characterized by the features and what they have in common that a) a reaction hollow shaft is arranged centrally in their routing base mass storage, which in existing - End shields equipped with support base, feed throat and outlet channel - stored through whose centrally placed power-permeable dividing sheets form the interior of the primary and secondary Transition openings provided drum hollow shaft flexibly divides, wherein the reaction wave at the upper outer jacket area with the Inlet openings coordinated axially of the circuit, the valve holder has arranged in which - supported by valve sliding pressure springs - the valve shells at the same time c) are connected to the sewage collection line with a gradient in the direction of the sewage flow shut-off valve with the water components addition line below The main valve is connected, as is the connection piece with the shut-off valve, the component primary supply line with valve and the component secondary supply line with valve, whereby the supply lines - passed through the attachment flap into the interior of the reaction hollow shaft - via their influx opening ' can be withdrawn c) without disturbing the gas circulation, which - as well as the Fluid component circulation control achieved by means of valves is steered, and that via the fresh air channel, which is made up of - in the outlet part of the reaction hollow shaft transversely centrally built zone wall, whose one mouthpiece half is free - but the other is shot down and ends with a vapor exhaust outlet, with one Articulated connection at the other end of the zone wall is a flow direction plate carries, in both final positions on the area-coordinated-mounted support ring comes to the sealing concern; one - as well as in the technological interaction of transition openings - demand-controlled forced circulation - upon entry, circulation - and escape of the gases allowed, in which these are displaced by the fan blade on his transmission gear sits in the front part of the reaction well-wave fixed fan ring hangs and by means of reduction cardan shaft with the outside of the Front flap attached fan reduction drive connected is. 2. The composting process controller according to claim 1. characterized by the features and their commonality that in the construction example the reaction hollow shaft in addition to resting as a support element on one or both sides supported on support brackets, what comes as alternative necessity if there is any upstream connection of conventional basic goods input sluices or conventional raw product discharge sluices is shown.