Advanced Chemical-Mechanical Dewatering of Fine Particles

Asmatulu, Ramazan

05 April 2001

In the present work, novel dewatering aids and a novel centrifuge configuration were developed and applied for the purpose of dewatering fine particles. Three different types dewatering reagents were tested in different filtration and centrifugation units. These chemicals included low-HLB surfactants, naturally occurring lipids, and modified lipids. Most of these reagents are insoluble in water; therefore, they were used in solutions of appropriate solvents, such as light hydrocarbon oils and short-chain alcohols. The role of these reagents was to increase the hydrophobicity of the coal and selected mineral particles (chalcopyrite, sphalerite, galena, talc, clay, phosphate, PCC and silica) for the dewatering. In the presence of these reagents, the water contact angles on the coal samples were increased up to 90o. According to the Laplace equation, an increase in contact angle with the surfactant addition should decrease the capillary pressure in a filter cake, which should in turn increase the rate of dewatering and help reduce the cake moisture. The use of the novel dewatering aids causes a decrease in the surface tension of water and an increase in the porosity of the cake, both of which also contribute to improved dewatering. A series of batch-scale dewatering tests were conducted on a variety of the coal and mineral samples using the novel dewatering aids. The results obtained with a Buchner funnel and air pressure filters showed that cake moistures could be reduced substantially, the extent of which depends on the particle size, cake thickness, drying time, reagent dosage, conditioning time, reagent type, sample aging, water chemistry, etc. It was determined that use of the novel dewatering aids could reduce the cake formation time by a significant degree due to the increased kinetics of dewatering. At the same time, the use of the dewatering aids reduced the cake moistures by allowing the water trapped in smaller capillaries of the filter cake. It was found that final cake moistures could be reduced by 50% of what can be normally achieved without using the reagents. However, the moisture reduction becomes difficult with increasing cake thickness. This problem can be minimized by applying a mechanical vibration to the cake, spraying a short-chain alcohol on the cake and by adding a small amount of an appropriate coagulant, such as alum and CaCl2 to the coal and mineral slurries. The novel dewatering aids were also tested using several different continuous filters, including a drum filter, disc filter and horizontal belt filter (HBF). The results obtained with these continuous filtration devices were consistent with those obtained from the batch filters. Depending on the coal and mineral samples and the type of the reagent, 40 to 60% reductions in moisture were readily achieved. When using vacuum disc filters, the cake thickness increased substantially in the presence of the novel dewatering aids, which could be attributed to the increased kinetics of dewatering. A dual vacuum system was developed in the present work in order to be able to control the cake thickness, which was necessary to achieve lower cake moistures. It was based on using a lower vacuum pressure during the cake formation time, while a full vacuum pressure was used during the drying cycle time. Thus, use of the dual vacuum system allowed the disc filter to be used in conjunction with the novel dewatering aids. Its performance was similar to that of HBF, which is designed to control cake thickness and cake formation time independently. The effectiveness of using the novel dewatering aids were also tested in a full-continuous pilot plant, in which coal samples were cleaned by a flotation column before the flotation product was subjected to the disc filter. The tests were conducted with and without using novel dewatering aids. These results were consistent with those obtained from the laboratory and batch-scale tests. The novel centrifuge developed in the present work was a unit, which combined a gravity force and air pressure. The new centrifuge was based on increasing the pressure drop across the filter cake formed on the surface of the medium (centrifuge wall). This provision made it possible to take advantage of Darcy s law and improve the removal of capillary water, which should help lower the cake moisture. A series of tests were conducted on several fine coal and mineral particles and obtained more than 50% moisture reduction even at very fine particle size (2 mm x 0). Based on the test results obtained in the present work, two proof-of-concept (POC) plants have been designed. The first was for the recovery of cyclone overflows that are currently being discarded in Virginia, and the other was for the recovery of fines from a pond in southern West Virginia. The former was designed based on the results of the plant tests conducted in the present work. Cost vs. benefit analyses were conducted on the two POC plants. The results showed very favorable internal rates of return when using the novel dewatering aids. Surface chemistry studies were conducted on the coal samples based on the results obtained in the present investigation. These consisted mainly of the surface characterization of the coal samples (surface mineral composition, surface area, zeta potential, x-ray photoelectron microscopy (XPS)), acid-base interactions of the solids and liquids, dewatering kinetic tests, contact angle measurements of the coal samples and surface force measurements using AFM. In addition, carbon coating on a silica plate using palsed laser deposition (PLD) and Langmuir-Blodgett (LB) film deposition tests were conducted on the sample to better understand the surfactant adsorption and dewatering processes. The test results showed that the moisture reductions on the fine particles agree well with the surface chemistry results. / Ph. D.

Wettability

Flotation

Oxidation

Talc

PCC

XPS

Silica

Phosphate

Acid-Base Interaction

Fine Particles

Coal

HBF

Sphalerite

Surface Analysis

Hydrophilicity

Centrifugation

Hydrophobic Force

Moisture

Surface Tension

Filtration

Galena

Contact Angle

Polymer

Clay

Buchner Filter

Coating

Surfactant

Disc

Drum

Dewatering Kinetics and Modeling.

Hydrophobicity

Dewatering

Chalcopyrite

AFM

Electrolyte

Coagulation

BET

PZC

Exploration of the healing ministry in the Presbyterian Church in Cameroon (PCC)

Tacheche, Nchangfu Florence

12 1900

The renewal of interest in religious healing methods in the past few decades, in response to various perspectives of illnesses, is ‘blowing’ through the PCC-one of the reformed churches in Africa. There are two underlying assumptions in this project: the first is that sickness constitutes a major threat to good health and the second is that the ministry of healing in the PCC is not contextual in view of respecting and incorporating the cultural, social, religious beliefs and values of its people in the formation of meaningful healing ministry. The healing ministry of the Presbyterian Church in Cameroon is lacking in efficacy and essence because it does not make much meaning in the lives of the sick and their relatives. This project gives an overview of some of the causes of tensions that exist in the PCC concerning its ministry of healing. It critically analysis, interprets and discusses the empirical results of 26 (20 laity and six clergy) members of the Musang congregation alongside some theological reflections. The project explored and highlighted the importance of the traditional worldview regarding health, illness, healing and defines healing as the work of God and that it is imperative for the Church to focus on a more meaningful healing ministry that includes physical, spiritual, social and psychological aspects, thus healing needs to be holistic. Putting together the results of the literature review, the empirical research and the critical and theological reflections, the project suggests and affirms that there are theological, practical and socio-cultural reasons for the PCC to rethink, reformulate and reshape its healing ministry in the light of Jesus’ healing ministry. The project points out the theological, practical and cultural basis for a more meaningful ministry of healing within the PCC. These results reveal that the PCC has no choice but to embrace this emerging biblical healing ministry if it truly wants to remain faithful and in obedience to Jesus’ three but inseparable ministries of preaching, teaching and healing. Finally, the project proposes an integrated healing service as one of the ways towards a more practical and meaningful ministry of healing in the PCC at home and in the diaspora. Some objective comments and recommendations are also made. / Practical Theology / D. Th. (Practical Theology)

Presbyterian Church in Cameroon (PCC)

Reformed

Reformation

Reformed tradition

Healing

The church's ministry of healing

The healing ministry

Healing service

Theological reflections

Experience

Health and sickness

African worldview

Causes of illnesses

Threats to life

Good health

Western worldview

Prayers

Laying of hands

Exorcism and anointing with oil

Contextual

Practical

Kingdom of God here and now

Satan and its principalities

Spiritual or supernatural world

Pastoral care

Compassion

In obedience

The sacraments

Sensationalism

Inseparable and practical actions

285.16711

Presbyterian Church -- Cameroon

Eglise presbytérienne camerounaise

Healing -- Cameroon -- Religious aspects

Church work -- Cameroon