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Title:
A METHOD OF EVAPORATING LIQUID AND DRYING STATIC BED OF PARTICLES WITHIN A CONTAINER AND RECOVERING WATER CONDENSATE
Document Type and Number:
WIPO Patent Application WO/2014/195668
Kind Code:
A1
Abstract:
A method of evaporating liquid and drying static bed of particles within a container and recovering water condensate.

Inventors:
PRAKASHKUMAR NARASHIMHAMURTHY (GB)
Application Number:
PCT/GB2014/000216
Publication Date:
December 11, 2014
Filing Date:
June 03, 2014
Export Citation:
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Assignee:
PRAKASHKUMAR NARASHIMHAMURTHY (GB)
International Classes:
F26B3/06; F26B9/06; F26B19/00; F26B25/00
Foreign References:
US4412392A1983-11-01
US4043051A1977-08-23
US20110168816A12011-07-14
BE542128A
DE19930223A12001-01-04
Download PDF:
Claims:
Claim:

A method of evaporating liquid and drying a static bed of particles within a container and recovering water condensate, the method comprising forcing dry air or gas at a temperature greater than ambient air into the container at at least one inlet to dry the particles and to condense moisture laden air or gas on the container surface en-route to a container outlet, the container comprising a top surface, a bottom surface and either a front surface, a rear surface and two side surface or one cylindrical side surface, all of which are uninsulated or insulated internally or externally, and the container un-insulated side surfaces, and together the surfaces define a space within which an air or gas inlet manifold connects to the at least one air or gas inlet and connects to a plurality of tubes either arranged at one location and level or arranged at several locations and levels within the entire length, breath and height of the container space, the tubes having air or gas outlets which in use are adjacent the particles, the container further including partition walls which in use contain the particles and provide in conjunction with the top and side surfaces a passageway for the moist air or gas to exit the container and a condensing surface on the un-insulated side wall surface for the moist air or gas to condense, the container has at least one closable opening for loading the particles into the container, the container outlet is a plurality of closable vents at the bottom of the moist air or gas passageway, and the inlet or inlets can connect with a detachable mechanical air or gas blower to force air or gas into the container.

Description:
Title:

A method of evaporating liquid and drying static bed of particles within a container and recovering water condensate.

Description:

Felled tree logs and branches are chipped and dried for use in biomass boilers. Freshly felled trees contain moisture in excess of 60%. This is normally dried down to about 30% which is ideal to run biomass boilers to its optimum efficiency. Many drying systems such as, natural sun drying, kiln drying, rotary drying, fluidized bed drying etc. are used to dry the chipped wood, however, in such drying systems handling and storage of bulk chipped wood, its drying , protective storage of dried chipped wood and its transportation incur considerable time and cost. Especially the bulk storage of dried chipped wood is of concern when it is exposed to the influence of atmosphere. The preferred embodiment is an efficient and cost effective method of drying wood chips and has multiple advantages over other drying systems such as; it increases the protection to dried chipped wood from outside atmosphere, reduces the handling from start to end of the complete process, reduces the human exposure to dust and fines inherent in wood chips handling process during its process, storage and transportation, saves time and costs.

Background:

The normal processes, movement and handling involved after chipping the tree logs to feed the biomass boiler would require; a large area for storage of chipped wood before it is transported to drying platform or chamber, spreading the chipped wood evenly on a platform if sun dried and kiln dried or loading to the drying chambers of other type of drying systems, removing from the platform or unloading from the chamber after drying, providing protective storage to the dried chipped wood, if sent to another destination then loading to the transport, transporting to destination, unloading at the destination and providing protective storage at the destination. To sum up, the entire process from start to end, obliviously will involve several stages of handling requiring machine and human intervention.

The drying of wood chips other than natural sun drying need at least a fully covered chamber as in kilns or any other type of drier systems. Generally the drying of wood chips for the purpose of feeding biomass boiler is a low cost operation and is normally conducted in non-insulated chambers. There is an increasing tendency to use waste heat generated from other sources for example as generated in anaerobic digester plants and other types of renewable energy plants to dry the wood chips. Also in certain biomass boilers, some heat generated in the biomass boiler itself is used to pre dry the wood chips before it is fed into such boiler.

The preferred embodiment is a shipping container or a container of any shape permanently built in with a unique drying mechanism to evaporate liquid and dry a static bed of wood chips or any wet particle material and which can also be used to store and transport such dried material. The drying system provides an efficient method to evaporate liquid and dry a static bed of particles contained in such container uniformly and at a quicker rate. It saves energy compared to other conventional drying methods for a loaded container volume of wood chips or any other wet particle materials. It can be connected to external heat exchangers, blowers and pipes to receive warm or hot air or flue gas herein referred to as air. Particularly in a mobile drying system, it would require just two movements and handling of bulk chip wood i.e. firstly, loading freshly chipped wet wood directly from the wood chipping machine into the shipping container and secondly removing dried chipped wood before feeding into the biomass boiler. It will additionally provide a protective storage to the dried wood chips during transportation and storage. It increases the health and safety by reducing human exposure to dust and fines. Being containerized in a standard shipping container, it benefits from the convenience and economy of commonly available facilities for handling and transporting of a shipping container thus saving time and costs.

The top, rear, front & base of the container is insulated externally or internally. Insulated partition walls are built leaving a narrow passage between each inner side of the container wall and the partition wall. At the bottom of such passage, plurality of closable vents is provided. Also a narrow passage is allowed between the entire length of the partition wall and the ceiling i.e. inner side of the insulated top surface of the container. The bottom of the partition wall is firmly secured to the base of the container without leaving any gap. A structure comprising plurality of tubes containing plurality of holes is fixed permanently inside the container. These pluralities of tubes are connected to manifolds which are further connected to the hot air inlet via opening preferably on the rear of the container. Single or multiple openings with doors is provided on the top of the container for easier loading of wood chips into the container.

The container doors are shut and the wet wood chips are loaded from the top opening to fill in the container and the plurality tubes are buried in the bed of wood chips. After the wood chips are loaded the opening is shut. When hot air is forced via the manifold, the arrangement of plurality of tubes containing plurality of holes distributes the hot air with uniform temperature at various locations and levels within the bed of wood chips. The forced hot air with an upward draft movement carries moisture released from the wood chips upwards. During this upward movement from the bottom to the top surface of the bed of wood chips, the moist air will regain the lost heat as it passes each higher level of plurality tubes. The resulting effect is uniform removal of moisture from the wood chips throughout the height, length and breadth of the bed of wood chips. Also the hot air released at the top most level of the bed of wood chips, maintains the temperature of air enough to carry the released moisture above the surface of the bed of wood chips and also keep the insulated ceiling warm. This reduces the possibility of the moisture in the air after hitting the ceiling, condensing and dropping back to the bed of wood chips. Also the insulation to rear and front reduce condensation on the inner surface of such sides. The hot moist air will find its way out via the narrow passage between the ceiling and the partition wall and then is pushed downwards along the narrow passage between partition wall and the sides of the container. The exterior of the sides of the container is exposed to cooler atmospheric air temperature as the sides are not insulated. This keeps the inner surface of such sides cooler than the temperature of the moist air. The continuous cooling of moisture laden air results in downdraft in the narrow passage due to continuous direct contact with such cooler surface. This naturally condenses the moisture in the air on the inner surface of such sides. The condensed water will flow down due to gravity and flow out of the container via opened bottom vents and the air also escapes the container via opened bottom vents. The entire process skips the need to use air extractors and heat exchangers to have similar drying effect thereby saving energy and maintenance costs. Also it is environment friendly because of reduced moisture thrown into the atmosphere and the water removed from condensation can be stored and treated for other uses. After the drying process the bottom vents are shut which improves protective storage of the dried wood chips from being exposed to outside atmosphere.

Description of drawing:

Fig: l

(01) is the shipping container. (02) is the single inlet opening for the air warmer than the atmospheric air temperature (not shown in the drawing is the optional multiple inlet opening). (03), (04) and (05) serves as openings for loading chipped wood into (01).

Fig: 2

(06) is the frame made from plurality of tubes (07) containing plurality of holes (08) connected to a manifold (09). (09) is connected to (10) which serves as a provision to connect a blower, pump or a fan that force air into (01). (06) is designed to provide structural support to (07) which is fixed to (01). (06) will be buried under the bed of wood chips when (01) is fully loaded with wood chips. (06) in its entirety is also designed to distribute the forced hot air uniformly throughout such bed of wood chips contained in (1). The blower or pump or fan connected to the provision for outlet; force the inlet air upwards causing an upward draft of the hot air.

Fig 3:

This is a part of the cross section view of preferred embodiment showing (11) and (12) insulation to top and bottom of the container to reduce condensation on such inner surface. Not shown is the insulation to the rear and front of the container. (13) is the partition wall allowing a narrow passage (14) between the cooler inner surface of both sides (15) of the container and (13 ) as well as narrow passage (16) between (13 ) and the ceiling. (17) is the plurality tubes containing plurality holes at different levels. (17) is buried in the bed of wood chips (18 ) after ( 18 ) is loaded into (1). (19) is the upward draft movement of the moist air. (20) is the moist air attracted toward the colder inner surface of (15) and pushed into the narrow passage (16). (21) is the moist air with downdraft movement due to continuous cooling from (15). (22) is the closable vent. (23 ) dried air escapes the vent (22) and the condense water also flow out via (22).