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Efficient Implementation of a Function Generator Based on Look-up TableLin, Ching-Pin 10 September 2008 (has links)
In many digital signal processing applications, we often need some special function units that can compute complicated arithmetic functions such as reciprocal, square-root, base-2 logarithm, power of 2, trigonometric functions, etc. The most popular design approaches to compute these single-value functions are based on look-up tables (LUT) with interpolation. In general, there are two different types of LUT-based method: piecewise and multipartite. As the required bit accuracy increases, the size of LUT increases exponentially. In this thesis, we will develop a generator that can automatically synthesize suitable hardware to compute these special arithmetic functions given the required bit accuracy. In particular, higher-order piecewise method will be supported to reduce the table size for high-accuracy applications. The synthesized arithmetic units are used in the design of a vertex shader for 3D graphics application.
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The regional effect of water table lowering in the Durban area /Baxter, Brian Thomas. January 1973 (has links)
Thesis (M.Sc.Eng.)-University of Natal, Durban, 1973. / Full text also available online. Scroll down to electronic link.
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Soil and landscape effects on water table depth in three Indiana soilsMcClelland, James H. January 1994 (has links)
Depth to water table in soils influences soil properties such as color and horizon thickness and, in some cases, determines soil classification under Soil Taxonomy. The objective of this study was to determine the depth to water table in three Indiana soil series and to evaluate the effect of soil series and landscape on water table levels. The three soils studied were moderately well drained Glynwood, somewhat poorly drained Blount, and poorly drained Pewamo soil series. The effect of soil horizon on water table levels was also examined.Data were collected from 3/21/94 to 6/6/94 at the Hults Environmental Learning Center in Albany, Indiana. The effect of soil type on water table levels was observed as measurable differences in drainage characteristics in the three soil series. Soil horizon had limited effect on water table fluctuations. Water percolated easily through all A horizons. Water temorarily perched upon the B horizon in the Glynwood soils. Landscape position appeared to play a limited role in water table fluctuations. / Department of Natural Resources and Environmental Management
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Assessing impacts of dropping water table in Casa Grande Ruins National MonumentVan Pelt, Derek. January 1998 (has links) (PDF)
Thesis (M.S. - Hydrology and Water Resources) - University of Arizona. / Includes bibliographical references (leaves 134-137).
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Efficiency of irrigation practices for table grapes in the Hex River Valley /Eustice, Tarryn. January 2008 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2008. / Bibliography. Also available via the Internet.
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Taxonomy Table of Existing and Forthcoming Internet Telephony and Multimedia StandardsEnglund, Christer 23 July 2002 (has links)
No description available.
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Ansiedade e competências de coping em atletas de ténis de mesaSalgado, Mónica Barroso da Silva January 1999 (has links)
No description available.
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Cooling and shipping studies on table grapes (Vitis vinifera L.)Ngcobo, Mduduzi E. K. 03 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2008. / ENGLISH ABSTRACT: Fruit quality is the most important factor that determines prices for the fruit in the
international markets. Although different consumers perceive quality differently there are
quality variables that are always associated with poor quality by all consumers. In table
grapes (Vitis vinifera L.) these variables may include overall appearance, stem condition,
SO2 damage, decay, berry browning and shatter. The presence of these quality defects
negatively affects prices and most often results in quality claims.
Cooling is the most widely used method to reduce the postharvest loss of fruit quality. In
South Africa, most deciduous fruits including table grapes are forced air cooled to a
statutory pulp temperature of –0.5°C prior to shipping in an effort to preserve quality,
thus ensuring good market prices for the fruits. Despite these efforts, there are still quality
claims from the markets and this reduces the returns to the growers.
The objectives of this research were to: (i) see if cooling time can be reduced by cooling
to higher pulp temperatures of 1.5°C and 3°C without causing quality losses, thus
improving the throughput of the cold rooms; (ii) see if the problem of berry browning can
be alleviated by cooling grapes to higher pulp temperature, and (iii) see whether pallet
positioning in the cooling tunnels and reefer container affect quality.
The trends showed better quality when ‘Victoria’ and ‘Regal Seedless’ were forced air
cooled (FAC) to pulp temperatures of 1.5 °C and 3 °C as opposed to –0.5 °C. There were
no economic losses associated with pre-cooling grapes to pulp temperatures of 1.5 °C and
3 °C. There were no significant differences in berry browning related to pre-cooling
treatments. However, cooling time was reduced significantly. In most of the cooling
tunnels and reefer containers used in this trial, grape quality results showed no significant
differences between the positions in the stack and in reefer containers. However, in cases
where there were significant differences, the middle and the rear positions showed better
grape quality in terms of stem condition (dry and brown stems) than the front position
(near fan) in both the pre-cooling stack and reefer containers. The trends showed that the front is cooler than the back of the pre-cooling stack. The pulp
temperature differences between the front and rear positions in the reefer container were
as high as 1.23 °C. The trends also showed that the bottom layers of the pallets were
cooler than the top layers in the reefer container.
FAC to 3°C resulted in a constant reduction in percentage electrolyte leakage after 4
weeks of storage at –0.5°C, while FAC to 1.5°C, -0.5°C and static room cooling (control)
in some cases showed an initially low electrolyte leakage followed by an increase in
leakage after 4 weeks of storage.
FAC grapes to higher pulp temperatures of 3°C and 1.5°C could reduce the cooling time,
thereby improving the throughput of cold rooms. There was no clear evidence to suggest
that browning was due to pre-cooling practices. Both preharvest and postharvest
conditions need to be further investigated to better understand the problems of browning
in white table grapes. / AFRIKAANSE OPSOMMING: Vrugkwaliteit is ʼn kritiese faktor in die bepaling van pryse op die internasionale markte.
Alhoewel daar variasie voorkom tussen verbruikers in wat vrugkwaliteit is, bly sekere
aspekte altyd onveranderd. Ononderhandelbare kwaliteit aspekte in tafeldruiwe (Vitis
vinifera L.) sluit die algemene voorkoms, toestand van die trosstingels, SO2 skade,
bederf, korrel verbruining en los-korrels in. Indien enige van die kwaliteit-defekte
voorkom het dit ʼn negatiewe impak op die prys en lei gewoonlik tot gehalte eise.
Verkoeling word algemeen gebruik om die verlies van na-oes kwaliteit te verminder. Die
meeste sagtevrugte geproduseer in Suid Afrika (insluitend tafeldruiwe) ondergaan
geforseerde verkoeling tot ʼn statutêre pulptemperatuur van -0.5°C, voor verskeping.
Ondanks hierdie maatreëls om hoë pryse te verseker, is daar steeds kwaliteiteise in die
mark wat lei tot ‘n laer inkomste vir produsente.
Die navorsing het dus ten doel gehad om : (i) te bepaal of die tyd van verkoeling
verminder kan word, indien na hoër pulptemperature van 1.5°C en 3°C verkoel kan word,
sonder ‘n verlies in kwaliteit en sodoende die deurvloeitempo van die koelkamers
verhoog; (ii) om te bepaal of die voorkoms van korrelverbruining verlaag kan word
indien tot hoër pulp-temperature verkoel word, en (iii) laastens om te bepaal of posisie
van die palet in die verkoelingstonnel en verskepingshouer ʼn invloed het op
vrugkwaliteit.
Tendense toon dat ‘Victoria’ en ‘Regal Seedless’ kwaliteit beter was indien verkoel tot
pulptemperature van 1.5°C en 3°C in vergelyking met -0.5°C. Daar was geen
ekonomiese verliese waargeneem indien die hoër verkoelingstemperature gebruik is nie.
Alhoewel daar geen betekenisvolle verskille in korrelverbruining voorgekom het tussen
temperatuur behandelings nie is die verkoelingsperiode verkort. In die meeste van die
verskepingshouers, asook in posisies tydens geforseerde verkoeling is daar geen
betekenisvolle verskille waargeneem nie. In die gevalle waar daar egter wel betekenisvolle verskille voorgekom het, het die middel en agter posisies beter
vrugkwaliteit gehad as die voorste posisie tydens verkoeling asook houerverskeping.
Die palette aan die voorkant (naby die waaier) het as ʼn algemene tendens laer
temperature as in die agterkant van die verkoelingstonnel. Verskille in pulptemperature
tussen palette in die voor en agterkant van verskepingshouers was so hoog as 1.23°C. Die
temperatuurdata het uitgewys dat die onderste laag kartonne neig om by ‘n laer
temperatuur te wees as die boonste lae kartonne tydens houerverskeping.
Geforseerde verkoeling teen 3°C het gelei tot ‘n afname in persentasie elektrolietlekkasie
na 4 weke van verkoeling teen -0.5°C. Terselfdertyd het geforseerde verkoeling tot 1.5°C
en -0.5°C asook statiese verkoeling (kontrole) in sekere gevalle gelei tot ‘n laer
aanvanklike uitlek van elektrolietlekkasie, gevolg deur ʼn verhoging na 4 weke opberging.
Geforseerde verkoeling van tafeldruiwe tot pulptemperature van 1.5°C en 3°C verkort die
verkoelingstyd en verhoog dus die deurvloeitempo in die verkoelingskamers. Daar was
gedurende die studie geen duidelike bewyse gevind dat korrelverbruining voorkom as
gevolg van verkoelingspraktyke nie. Beide voor en na-oes praktyke sal verder ondersoek
moet word om die invloed daarvan te bepaal op die verbruining van wit tafeldruiwe.
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Open hydroponic systems in table grape production : a case studyVan Zyl, Sonet 12 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: An open air hydroponic production system (OHS) is based on classic hydroponic
principles, with the difference that it lacks climatological control because the plants are
not produced in greenhouses and are cultivated in the outside environment. In these
systems the plant is provided with all the essential nutrients through the irrigation
system, which is scheduled according to accurate measurements of the available soil
water, in three to seven pulses a day. The rationale is that, by delivering nutrients each
day, the mixes can be representative of what the plant actually requires for that specific
phenological stage.
The aim of this study was to monitor the usefulness and impact of OHS on table
grape production within the framework of a case study. For this purpose, it was
necessary that all factors involved in the development and growth of the plant should be
studied and integrated in a multidisciplinary approach. Currently very limited information
exists on basic guidelines for the effective implementation of these systems for table
grape production, particularly with regard to local conditions. As a start, and to establish
some guidelines and measurable parameters for the implementation of these systems,
vegetative growth parameters were analysed within the framework of yield and fruit
quality. The experiments were performed in a commercial vineyard in the Paarl region
and the cultivars used were Dan ben Hannah (DBH) and Waltham Cross (WC).
Relevant soil and climatic conditions, irrigation scheduling, fertiliser application, as well
as cultivation practices, were taken into account. The soil maps provided information on
the soil types identified in the blocks prior to the establishment of the two cultivars. The
conventionally treated vines were irrigated and fertilised according to historical block
data, and the OHS-treated vines according to programmes established by two different
consultants.
The experimental layout included a comparison of conventional cultivation methods
and vines that had been switched over from conventional methods to OHS in the middle
of 2000. All measurements within the different treatments were done at specific
measuring points laid out statistically. Ten phenological stages were chosen to monitor
the various aspects throughout the season for both cultivars treated conventionally and
hydroponically. All relevant climatic parameters were collected for this specific
production unit. The growth, fertility and quality indicators of these cultivars under the
mentioned cultivation practices are discussed and established through quantitative
analysis
One of the aims, namely to show that established table grape vines could adapt
from micro-irrigation to drip irrigation within two seasons in terms of root adaptation, was
proven in this study. Initially the soil types were identified as Cartref, Clovellyand
Glenrosa for both cultivars. The WC block contained an Avalon and the DBH a
Westleigh soil type as well. The soil pits in all four treatments revealed the soil type to
be a Tukulu form with differences in the clay content. Active roots developed
underneath the drip lines for the OHS-treated cultivars, while the roots were still evenly distributed over the entire soil profile for the conventionally treated vines. Also, both
cultivars adapted to OHS in terms of yield and production within two seasons, especially
WC, which produced a higher yield in the 2001/2002 season than in the previous four
seasons.
DBH showed a strong vegetative reaction to OHS in terms of excessive vegetative
growth, which had an indirect effect on fruit quality and bud fertility. A higher rate of bud
mite infection in the OHS-treated vines also had a negative influence on bud fertility.
The excessive vegetative growth was due to a rainy 2001/2002 growth season, in
combination with the irrigation and fertiliser programmes. The irrigation and fertiliser
programmes were changed from the 2000/2001 to the 2001/2002 season because of
the change in consultants. As a result of this change, the OHS-treated vines were given
very high nitrogen, phosphorus, potassium and micronutrient applications in the
2001/2002 season. The penetration of light in the canopy of the OHS-treated DBH was
lower than in the conventionally treated DBH as a result of the above-mentioned factors,
but the situation in Waltham Cross was the opposite. In the winter season of 2001, both
OHS-treated cultivars were not fully adapted to the new system, as their pruning mass
was lower than in the conventionally treated cultivars. No significant differences were
determined for the winter cane starch content of both cultivars under conventional and
OHS treatments.
Effective fertiliser uptake proved to be suboptimal, especially in the case of calcium.
Fruit analyses showed a lower calcium content in the OHS-treated fruit, which led to a
poor skin cell structure and higher Botrytis infection during cold storage. The OHStreated
cultivars showed more compact bunches, with an overall smaller rachis
structure, which was another reason for the higher Botrytis infection during cold storage.
However, the more compact rachis structure could not be explained on the basis of the
elemental analyses. The OHS-treated DBH showed a more intense red berry colour,
while the OHS-treated WC had a higher Fosscan Brix value. Both OHS-treated cultivars
therefore ripened earlier than the conventional treatments.
One of the advantages of the use of OHS in table grape production shown in this
study was the ability to manipulate the phenology of the grapevine to provide fully
ripened grapes a few days earlier than the conventionally treated grapes. This kind of
advantage could be used to manipulate the production of table grapes for a better
market window.
Despite its limitations, this study concluded that the use of OHS for table grape
production might be a useful tool for future production management, but that accurate
management regarding irrigation and nutrient applications is a prerequisite. This will
have to be developed systematically through experimentation to fully unlock the
potential of the OHS management system for table grape production. This study
provides a starting point for future research to elucidate these aspects and has clearly
shown that even established vineyards can be switched to OHS in a relatively short
period of time. It is envisaged that the advantages of this system, as long as the correct
management protocols are in place, could have a positive effect on the production of
high quality fruit for the international market. / AFRIKAANSE OPSOMMING: 'n Oop hidroponiese produksiestelsel (OHS) is gebaseer op klassieke hidroponiese
beginsels, met die verskil dat OHS nie klimatologies beheer kan word nie. Die plante
word nie in glashuise of tonnelsisteme verbou nie, maar wei onder buitelug toestande.
Binne hierdie sisteme word die plante van alle noodsaaklike voedingstowwe deur die
besproeiingstelsel voorsien. Hierdie voedingstowwe word in drie tot sewe pulse per dag
volgens akkurate beskikbare grondwaterbepalings geskeduleer. Die rasionaal is dat,
deur die daaglikse lewering van voedingstowwe, die mengsels verteenwoordigend is
van die plant se behoefte vir 'n spesifieke fenologiese stadium.
Die doel van die studie was om die bruikbaarheid en impak van OHS op
tafeldruifproduksie binne die raamwerk van 'n gevallestudie te monitor. Alle faktore wat
by die groei en ontwikkeling van die plant betrokke is, moet in 'n multidissiplinêre
benadering bestudeer en geïntegreer word. Daar is tans slegs beperkte inligting oor die
basiese riglyne en effektiewe implementering van dié sisteme vir tafeldruifproduksie wat
spesifiek is vir plaaslike toestande. As 'n beginpunt, en om sekere riglyne en meetbare
parameters vir die implementering van die sisteme te vestig, is vegetatiewe parameters
binne die raamwerk van opbrengs en vrugkwaliteit geanaliseer. Alle eksperimente is in
kommersiële wingerdblokke in die Paarl-omgewing uitgevoer. Die kultivars wat vir die
studie gebruik is, is Dan ben Hannah (DBH) en Waltham Cross (WC). Alle relevante
grond- en klimaatstoestande, sowel as besproeiingskedulering, bemestingprogramme
en verbouingspraktyke is vir die projek in ag geneem. Ou grondkaarte het inligting ten
opsigte van die verskillende grondtipes wat voor die vestiging van die verskillende
kultivars geïdentifiseer is, verskaf. Die wingerde, onder konvensionele behandeling, is
volgens historiese blokdata besproei en bemes, terwyl die wingerde onder OHS volgens
geskeduleerde programme wat vanaf konsultante verkry is, besproei en bemes is.
Die eksperimentele uitleg het 'n vergelyking van konvensionele verbouingsmetodes
en wingerde wat in die middel van 2000 van konvensionele na OHS-verbouing
oorgeskakel is, ingesluit. Alle metings en analises binne die verskillende behandelings
het by spesifieke statistiesbepaalde punte plaasgevind. Tien fenologiese stadia is
gekies om die verskillende aspekte vir beide kultivars onder konvensionele en OHSbehandeling
gedurende die seisoen te monitor. Alle relevante klimaatsdata is vir die
spesifieke produksie-eenheid aangevra. Alle groei-, vrugbaarheids- en
kwaliteitsparameters van die kultivars onder die bogenoemde behandelingsmetodes is
bespreek en gevolglik deur kwantitatiewe analises bepaal.
Een van die doelwitte, naamlik om uit te vind of reeds gevestigde ouer wingerde in
terme van wortelaanpassing binne twee seisoene kan aanpas van mikrobesproeiing na
drup OHS, is deur die studie bevestig. Aanvanklik was die grondtipes geidentifiseer as
die vorme, Cartref, Clovelly en Glenrosa vir beide kultivars, met 'n Avalon vorm
adisioneel by WC, en 'n Westleigh vorm by die DBH. Grondprofiele het egter getoon dat
die grondtipes vir al vier behandelings 'n Tukulu vorm is met verskillende klei inhoude.
Aktiewe wortels het vir die OHS-behandelde wingerde onder die druppers ontwikkel,
terwyl die wortels in die konvensionele behandeling steeds eweredig oor die hele
grondprofiel versprei was. Beide kultivars het ook in terme van opbrengs en produksie binne twee seisoene ná die oorskakeling van die konvensionele behandeling na OHS
aangepas. WC het in die 2001/2002 seisoen 'n hoër opbrengs gelewer as in die vorige
vier seisoene.
Afgesien van die goeie aanpasbaarheid, het DBH 'n sterk vegetatiewe groeireaksie
ten opsigte van die OHS-behandeling getoon, wat 'n indirekte effek op vrugkwaliteit en
oogvrugbaarheid geopenbaar het. 'n Hoër mate van knopmiet infeksie in die OHSbehandelde
stokke kon ook 'n negatiewe bydrae tot oogvrugbaarheid gemaak het. Die
sterk vegetatiewe groei kon aan die hoër reënval gedurende die 200112002
groeiseisoen, tesame met die besproeiings- en bemestingsprogramme, toegeskryf
word. Die besproeiings- en bemestingsprogramme is verander van die 2000/2001
seisoen na die 2001/2002 seisoen weens die aanstelling van 'n ander konsultant. As
gevolg van hierdie verandering het die OHS-behandelde stokke baie hoë toedienings
van stikstof, fosfaat, kalium en mikroelemente in die 2001/2002 seisoen ontvang.
Sonligpenetrasie in die wingerdlower van die OHS-behandelde DBH was laer as in die
konvensionele behandeling as gevolg van die bogenoemde faktore. Die situasie vir WC
was egter die teenoorgestelde. Tydens die winterseisoen van 2001 was beide
oorgeskakelde kultivars nie ten volle by die nuwe OHS-behandeling aangepas nie, soos
gesien kan word in die laer lootmassas in vergelyking met die konvensionele kultivars.
Geen beduidende verskil is vir die hoeveelheid stysel in die winterlote van beide
kultivars onder konvensionele en OHS-behandeling verkry nie.
Effektiewe voedingstofopname was suboptimaal, veral betreffende kalsium.
Vruganalises het 'n laer kalsiuminhoud in die OHS-behandelde druiwe getoon, wat
aanleiding gegee het tot 'n swakker seistruktuur in die druiwedoppe en 'n hoor mate van
Bottytis-infeksie gedurende koelopberging. Die OHS-behandelde kultivars het meer
kompakte trosse getoon met kleiner trosraamwerke, wat ook aanleiding kon gegee het
tot 'n hoër Botrytis-infeksie. Die kleiner trosraamwerke kon nie deur voedingstofanalises
verklaar word nie. Die OHS-behandelde DBH het 'n hoër kleurintensiteit getoon, en die
OHS-behandelde WC het 'n hoër suikerinhoud getoon ten opsigte van die
konvensionele behandeling. Beide OHS-behandelde kultivars was dus vroeër ryp as die
konvensionele behandelings.
Een van die voordele van OHS wat uit die studie voortspruit, is die vermoë om
wingerdfenologie te manipuleer om ryper druiwe vroeër in die seisoen te verkry. Hierdie
tipe voordeel kan aangewend word om druiwe vir "n beter markvenster te produseer.
Hierdie studie, tesame met al sy beperkinge, kom tot die gevolgtrekking dat die
gebruik van OHS vir tafeldruifproduksie 'n nuttige instrument vir toekomstige
produksiebestuur is, maar dat die optimale bestuur van besproeiing en bemesting as
kritiese faktore beskou moet word. Hierdie faktore sal sistematies deur intensiewe
navorsing ontwikkel moet word om die volle potensiaal van OHS te ontsluit, spesifiek vir
tafeldruifproduksie. Hierdie studie kan as 'n beginpunt gebruik word vir toekomstige
navorsing vir meer toegeligte verklarings van die bogenoemde aspekte, veral met die
voordeel dat reeds gevestigde wingerde maklik en vinnig by OHS kan aanpas. Die
voordele van OHS kan 'n groot positiewe invloed op die produksie van hoër kwaliteit tafeldruiwe vir die internasionale mark hê, mits die regte bestuursriglyne in plek is en
toegepas word.
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Effects of packaging and postharvest cooling on quality of table grapes (Vitis vinifera L.)Du Plessis, S. F. (Stephanus Francois) 12 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: The table grape industry uses rapid cooling and packaging to protect grapes from desiccation
and decay. Numerous packaging methods and combinations are used in the industry with
each having their own advantages and disadvantages.
Inferior postharvest grape quality can usually be ascribed to either deficient or excessive
moisture in the carton. Berry split, decay and S02 damage are all disorders that are either
caused or aggravated by wet berries in conjunction with elevated temperature. On the other
hand, grapes that are exposed to desiccating conditions will develop brown stems and cause
ineffective control by S02 gas generators. Moisture management is governed by perforated
or non-perforated liners and/or by placing moisture absorbing materials inside the liners. To
find the optimum liner perforation or moisture sheet combination, 'Thompson Seedless' and
'Red Globe' (Vitis vinifera Linnaeus) table grape quality was evaluated in various trials.
The investigation of non-perforated liners compared to liners with different degrees of
perforation concluded the following: Perforated liners benefit grape quality by decreasing
S02 damage and berry split due to less moisture in the carton. These benefits, however, also
lead to loss in quality due to increased stem desiccation and a lower S02 concentration in the
packaging. The lower moisture content in the carton compensates for the lower S02
concentration, creating an environment less favourable for decay development. S02 damage
and berry split decreased with an increase in degree of liner perforation, irrespective of the
cultivars sensitivity to the disorder. Optimum level of perforation depends on the specific
sensitivity of a cultivar to certain quality disorders and the characteristics of the quality
disorders associated with a cultivar. Additionally, packing conditions such as product
temperature and humidity should be considered. The specific costs associated with the
advantages and disadvantages influenced by the degree of liner perforation will be the
deciding factor in liner selection.
The investigation of a clay-containing, moisture absorbing sheet emphasized the benefits and
risks of absorbing large amounts of water within the packaging. Irrespective of using a
perforated or non-perforated liner the influence of the desiccant sheet was evident throughout
the trials. It benefited grape quality by lowering the incidence of berry split and S02 damage. However, decay control was impaired by the desiccant sheet, and stem desiccation was
aggravated.
The comparison of non-perforated liners with liners of various degrees of perforation showed
the benefit of faster cooling rates of perforated liners. The various perforated liners showed
little variation in airflow and cooling times.
Morphological studies of various cultivars could not ascribe differences in stem condition to
anatomical dissimilarities between various cultivars. It was found that 'Red Globe' had a
much larger berry volume to stem weight ratio contributing to a high rate of water loss and
stem dehydration. Stem visibility is high in 'Red Globe' due to the straggly, loose nature of
the bunches. This heightens the perception of dry, brown stems and overemphasizes the
actual severity of the disorder. / AFRIKAANSE OPSOMMING: Die tafeldruifbedryf gebruik versnelde verkoeling en verpakking om druiwe te beskerm teen
uitdroging en bederf. Verskeie verpakkingsmetodes word gebruik in die industrie waarvan
elkeen sy eie voor- en nadele het.
Ondergeskikte na-oes kwaliteit kan gewoonlik toegeskryf word aan óf te min óf te veel vog
in die karton. Korrelbars, S02 skade en bederf is almal kwaliteitsdefekte wat óf veroorsaak
word, óf vererger word deur nat korrels, saam met 'n verhoging in temperatuur. In
teenstelling hiermee sal druiwe wat blootgestel word aan droë toestande, bruin stingels
ontwikkel en S02 beheer salook ondoeltreffend wees. Vog in verpakking word beheer deur
geperforeerde of nie-geperforeerde binnesakke en/of deur vogabsorberende materiaal binne
die binnesak te plaas. Om die optimum binnesak perforasie of vogabsorberende vel
kombinasie te vind is 'Thompson Seedless' en 'Red Globe' (Vitis vinifera Linnaeus)
tafeldruif kwaliteit ge-evalueer in verskeie proewe.
Die bestudering van nie-geperforeerde binnesakke teenoor binnesakke met verskillende grade
van perforasies het die volgende resultate gelewer: Geperforeerde binnesakke bevoordeel
druif kwaliteit deur die vermindering van S02 skade en korrelbars weens minder vog in die
karton. Hierdie voordele sal egter lei tot verlies in kwaliteit weens die vinniger uitdroging
van stingels en die verlaging van S02 konsentrasie in die verpakking. Die laer vog inhoud in
die karton vergoed vir die vermindering van S02 konsentrasie, omdat minder gunstige
toestande vir die ontwikkeling van bederf geskep word. S02 skade en korrelbars het
verminder met 'n vermeerdering van perforasies, ongeag die kultivar se sensitiwiteit vir die
defekte. Optimum vlakke van perforasie is afhanklik van die spesifieke sensititiwiteit van 'n
kultivar tot sekere kwaliteitsdefekte, en eienskappe van die kwaliteitsdefekte wat geassosieer
word met die kultivar. Boonop moet verpakkingsomstandighede soos produktemperatuur en
humiditeit ook in gedagte gehou word. Die spesifieke koste verbonde aan die voor- en nadele
wat beïnvloed word deur die graad van perforasie sal die bepalende faktor wees wanneer 'n
binnesak gekies word.
Die bestudering van 'n klei-bevattende, vogabsorberende vel het bewys dat dit voordele en
risiko's inhou om groot hoeveelhede vog te absorbeer. Ongeag die gebruik van 'n geperforeerde of nie-geperforeerde binnesak, was die invloed van die desikkante vel duidelik
in al die proewe. Dit was voordelig vir druif kwaliteit deurdat dit korrelbars en S02 skade
verminder het. Bederfbeheer is egter verswak deur die desikkante vel, en stingel uitdroging
IS vererger.
Die vergelyking van nie-geperforeerde binnesakke met verskillende grade van geperforeerde
binnesakke het die voordeel bewys van vinniger verkoelinstempo's van die geperforeerde
binnesak. Verskille in die graad van perforasie het 'n klein invloed gehad op die lugvloei en
verkoelingstempo 's.
Bestudering van verskeie kultivars kon geen morfologiese verskille uitwys wat variasie in
stingelkwaliteit tussen kultivars kan verklaar nie. Dit is bevind dat 'Red Globe' 'n baie groter
korrelvolume tot stingelgewig verhouding het. Stingels is meer sigbaar by 'Red Globe'
weens die yl, los aard van die trosse. Dit verhoog die persepsie van droë, bruin stingels en dit
oorbeklemtoon die voorkoms van die defek.
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