TIDMCMET
RNS Number : 7197I
Capital Metals PLC
20 April 2022
THIS ANNOUNCEMENT CONTAINS INSIDE INFORMATION AS STIPULATED
UNDER THE UK VERSION OF THE MARKET ABUSE REGULATION NO 596/2014
WHICH IS PART OF ENGLISH LAW BY VIRTUE OF THE EUROPEAN (WITHDRAWAL)
ACT 2018, AS AMED. ON PUBLICATION OF THIS ANNOUNCEMENT VIA A
REGULATORY INFORMATION SERVICE, THIS INFORMATION IS CONSIDERED TO
BE IN THE PUBLIC DOMAIN.
20 April 2022
Capital Metals plc
("CMET" or the "Company")
Outstanding Drill Results Confirms Higher Grade
and Potential Resource Extensions
& Project Update
Capital Metals plc (AIM: CMET), a natural resources company
focused on the development of the Eastern Minerals Project located
in the Eastern Province in Sri Lanka (the "Project"), one of the
highest-grade mineral sands projects globally, is pleased to
announce the first half of results from the late-2021 auger
drilling programme.
Highlights
-- 50% of the assays from the Q4 2021 auger drilling programme completed
-- High levels of assay precision and accuracy returned from
comprehensive quality assurance programme
-- Exceptional high-grade results of +30%Total Heavy Minerals* ("THM"), including:
o 1m at 86.1% THM
o 0.5m @ 70.86% THM
o 0.5m @ 56.77% THM
o 2.4m @ 50.14% THM
o 2.5m @ 46.40% THM
o 2.5m @ 38.29% THM
o 3.5m @ 33.40% THM
-- Average grade of results of 19.94% THM from 352 drill results
received to date, compared to the existing JORC resource grade of
17.6%
-- Confirmation of continuity of high grade as well as lateral extensions of resource areas
-- Results indicate likely new potential high-grade resource areas not previously identified
-- All results from surface to maximum of only 3.5m depth due to
limit of auger drilling and average depth 1.5m from surface. All
results ended in mineralisation
-- Further air core drill programme planned later in the year in
order to test lateral and depth extensions to increase the JORC
Resource
The drill results are in the Komari and Ureni North sections,
located in the southern portion of the Project (see link to map
below). Extremely high-grade zones of +30% THM were identified
within the drilling, with 63 of the 352 drill results received to
date recording over 30% THM, and the highest result returning 1m at
86.1% THM.
The average grade of results to date is 19.94% THM which
compares favourably with our current global resource grade of 17.6%
THM and these results indicate possible high-grade resource areas
not previously identified.
All drill results are from surface to a maximum of only 3.5m
depth with average depth 1.5m from surface and we believe there is
resource continuity at depth as shown from the 2018 drill
programme, which included results of 14m at 26.3% THM; 8m at 26.6%
THM.
Encouragingly, drilling to date has confirmed continuity of high
grade as well as adjacent extensions of resource areas. Further
analysis of the remaining samples and test work to characterise the
mineral assemblage is still to be completed by the lab being used
in Sri Lanka, however, given the results to date, the Company is
expecting a further uplift to historical figures.
The Company's geologists are now preparing an air core drilling
campaign for later this year that will test lateral and depth
extensions with the aim of increasing our current JORC Resource of
17.2Mt at 17.6% THM, which will be funded from our oversubscribed
February 2022 fundraise.
THM is defined here as the magnetic fraction plus the
non-magnetic heavy liquid separation ("HLS") sink fraction.
A summary of the sampling and assay procedure is presented in
Appendix 1.
A summary of significant intercepts is presented in Appendix
2.
A drilling and resource plan is included in a PDF version of
this announcement on the Company's website by clicking the link
below:
https://capitalmetals.com/auger-drilling-campaign-2021
Verified assay results returned to date have had extensive QA/QC
review. Sample duplicates and heavy mineral standard samples have
all been introduced to the laboratory for this drilling programme.
A Competent Person ("CP") audit of the laboratory in March 2022 has
confirmed the high level of accuracy and precision returned from
quality assurance samples.
Development Study
We have been informed by IHC Mining, who are completing the
Development Study and the revised Project Economics, that they are
nearing the final draft of their report. Following feedback from
the Company's commercial and technical team on the initial drafts
of the Development Study, including the Project Economics, we are
expecting to receive the final report imminently.
Economic Situation in Sri Lanka
The Company notes the economic and political events in Sri Lanka
related to country's debt position and discussions with the
International Monetary Fund ("IMF"), caused largely by the COVID
shutdowns and the lack of tourist income on which the country is
heavily reliant. This has resulted in shortages of foreign exchange
reserves and essentials including fuel as well as power generation
due to the shortages in hydroelectricity. However, the country is
currently experiencing heavy showers which has eased some pressure
on diesel power plants.
In response to the social pressure exerted by island wide
protests, the Governor of the Central Bank and the Treasury
Secretary has been replaced by respected and qualified
professionals who have taken immediate steps to halt the current
decline and are currently engaged with the IMF on debt
restructuring and obtaining funding.
There have been no direct impacts on the Project from the
situation and the Board believes that our Project, when
operational, will be favourable for the country as it will generate
foreign export earnings for the country. We are continuing to work
diligently with the Sri Lankan authorities in order to progress the
issue of our first Industrial Mining Licence ("IML"). This will
enable us to move into commissioning the mineral sands concentrator
to enable first production of a heavy minerals concentrate.
Michael Frayne, Chief Executive Officer, commented:
"The first half of results from our auger drilling campaign were
spectacular. Less than 10% of the Project has been drilled to date
and these latest results confirm our belief that this resource will
expand and we will uncover high grade areas not previously
identified.
"Our geologists are now planning the air core drill campaign for
later this year which we expect will increase the resource.
"The Project is shaping up in every aspect to be a significant
mineral sands project and we look forward to sharing the results of
the Development Study in the very near term."
Competent Person
Information in this report relating to Exploration Results is
based on data reviewed by Mr Richard Stockwell, a principal of
Placer Consulting Pty Ltd and Technical Manager of the Company. Mr
Stockwell is a Fellow of the Australian Institute of Geoscientists
and has in excess of 20 years' experience, which is relevant to the
style of mineralisation and type of deposit under consideration,
and to the activity he is undertaking, to qualify as a Competent
Person as defined in the 2021 Edition of the "Australasian Code for
Reporting of Exploration Results, Mineral resources and Ore
Reserves". Mr Stockwell consents to the inclusion of the
information in the form and context in which it appears.
For further information, please visit www.capitalmetals.com or
contact:
Capital Metals plc j ames.mahony@capitalmetals.com
Michael Frayne (CEO)
James Mahony (CFO)
SPARK Advisory Partners (Nominated
Adviser)
Neil Baldwin / James Keeshan +44 (0) 20 3368 3554
WH Ireland Limited (Joint Broker)
Harry Ansell / Katy Mitchell +44 (0) 20 7220 1666
Tavira Securities Limited (Joint
Broker)
Jonathan Evans / Oliver Stansfield +44 (0) 20 7100 5100
APPIX 1 - JORC Table 1
Criteria Explanation Comment
Sampling Nature and quality of sampling Hand auger drilling is executed by
techniques (e.g. cut channels, random the Geological Survey & Mines Bureau
chips, or specific specialised in Sri Lanka ("GSMB") field team using
industry standard measurement a manually operated enclosed-flight
tools appropriate to the minerals Spiral Auger (SP / SOS) system from
under investigation, such as Dormer Engineering in Queensland, Australia.
down hole gamma sondes, or Drilling proceeds to the water table,
handheld XRF instruments, etc.). which is intersected at an average
These examples should not be depth, for this dataset, of 1.5m from
taken as limiting the broad surface.
meaning of sampling. The first 0.5m advance is withdrawn
and the contents of the auger removed
onto a sheet and set aside for bagging.
The subsequent samples are taken in
the same manner at 1m intervals or
until the hole is abandoned at the
water table.
The whole sample is retained.
Include reference to measures All drilling is completed above the
taken to ensure sample representivity water table.
and the appropriate calibration Drilling and sampling activities are
of any measurement tools or supervised by a suitably qualified
systems used. GSMB geologist who is present at all
times. All drill samples are geologically
logged by the geologist at the drill
site.
Each sample is bagged at site and transferred
to the GSMB laboratory. Samples are
dried and weighed prior to analysis.
Aspects of the determination All samples are dried and weighed.
of mineralisation that are A riffle-split sub sample is then wet
Material to the Public Report. screened to determine slimes (-63 um)
In cases where 'industry standard' and oversize material (+1mm) . Approximately
work has been done this would 100g of the resultant sand sample is
be relatively simple (e.g. then oven-dried and passed over a Franz
'reverse circulation drilling Isodynamic Magnetic Separator to produce
was used to obtain 1 m samples magnetic (M) and non-magnetic (NM)
from which 3 kg was pulverised fractions. The NM fraction is then
to produce a 30 g charge for subjected to heavy liquid separation
fire assay'). In other cases, (HLS) using Lithium heteropolytungstate
more explanation may be required, (LST) with a density of 2.82g/ml.
such as where there is coarse All fractions are weighed and reported
gold that has inherent sampling as a percentage of the in-ground total
problems. Unusual commodities sample weight.
or mineralisation types (e.g. Grain counting of heavy minerals is
submarine nodules) may warrant completed by mineralogist and mineral
disclosure of detailed information. assemblage data is then reported as
a percentage of the HM fraction.
Drilling Drill type (e.g. core, reverse All samples are generated by hand auger
techniques circulation, open-hole hammer, drilling utilising 75 mm diameter enclosed-flight
rotary air blast, auger, Bangka, spiral auger. Drill holes are oriented
sonic, etc.) and details (e.g. vertically by eye.
core diameter, triple or standard
tube, depth of diamond tails,
face-sampling bit or other
type, whether core is oriented
and if so, by what method,
etc.).
Drill sample Method of recording and assessing Samples are assessed visually for recoveries.
recovery core and chip sample recoveries Samples are retrieved moist from the
and results assessed. ground. The configuration of drilling
and nature of materials encountered
results in negligible sample loss.
Hand-auger drilling is ceased when
recoveries become poor once the water
table has been reached. Water table
and recovery information is included
in lithological logs.
Drill sample Measures taken to maximise The GSMB's trained geologists supervise
recovery, sample recovery and ensure drilling on a 1 team 1 geologist basis
cont'd. representative nature of the and are responsible for monitoring
samples. all aspects of the drilling and sampling
process.
Whether a relationship exists No relationship is believed to exist
between sample recovery and between grade and sample recovery.
grade and whether sample bias The moisture content and absence of
may have occurred due to preferential hydraulic inflow above the water table
loss/gain of fine/coarse material. results in a sample size that is well
within the expected size range.
Logging Whether core and chip samples Qualitative logs of geological characteristics
have been geologically and are collected in the field to allo
geotechnically logged to a w a comprehensive geological interpretation
level of detail to support to be carried out. Drill holes are
appropriate Mineral Resources characterised by their location within
estimation, mining studies the beach-barrier sequence to assist
and metallurgical studies. with domaining each sequence unit in
subsequent resource estimations.
Whether logging is qualitative Logging of sand samples in the field
or quantitative in nature. is qualitative and includes description
Core (or costean, channel, of sand colour, sorting and angularity.
etc.) photography. Estimates of black HM and garnet is
recorded. A comments field is employed
to allow further description of the
location or sand sample.
The total length and percentage All drill holes are logged in full
of the relevant intersections and all samples are assayed.
logged.
Sub-sampling If core, whether cut or sawn All samples comprise unconsolidated
techniques and whether quarter, half or sand.
and sample all core taken.
preparation
If non-core, whether riffled, Samples are taken in their entirety.
tube sampled, rotary split, Drill samples are oven-dried and split
etc. and whether sampled wet for analysis.
or dry.
For all sample types, the Sample preparation is recorded on a
nature, quality and appropriateness standard flow sheet and detailed QA/QC
of the sample preparation technique. is undertaken on all samples. Sample
preparation techniques and QA/QC protocols
are appropriate for the magnetic separation
and heavy mineral determinations.
Sub-sampling Quality control procedures Quality assurance protocols include
techniques adopted for all sub- sampling the application of trained geological
and sample stages to maximise representivity staff and experienced samplers. Use
preparation, of samples. of plastic sheets and sample bags to
cont'd. remove the potential of sample loss
and cleaning of sample equipment between
samples.
Competent person (CP) review of laboratory
techniques and flowsheet is applied
to ensure representative sample splitting.
Inspection of laboratory procedure
and equipment is completed to ensure
appropriate technique, good housekeeping
and application of accurate sample
handling and sample management procedures.
Laboratory duplicate and standard sample
geostatistical analysis is employed
to manage sample precision and analysis
accuracy. Twin drilling is applied
to determine short range variability
in grade and lithological character.
Measures taken to ensure that Samples are taken in their entirety.
the sampling is representative Laboratory duplicates are generated
of the in-situ material collected, for precision analysis at the sample
including for instance results splitting stage. Results indicate a
for field duplicate/second-half high level of precision is achieved.
sampling.
Whether sample sizes are appropriate The sample size is considered adequate
to the grain size of the material for a medium-grained sand.
being sampled.
Quality of The nature, quality and appropriateness Sample preparation and analysis of
assay data of the assaying and laboratory drill samples is completed by the GSMB
and laboratory procedures used and whether research laboratory in Colombo. Analysis
tests. the technique is considered is conducted on a split fraction of
partial or total. the total sample and the retains are
labelled and stored.
Techniques employed conform to contemporary
analysis methodology in the treatment
of minerals separable by their physical
properties. A CP audit of the facility
was completed with no recommended improvements
noted.
For geophysical tools, spectrometers, None used.
handheld XRF instruments, etc.,
the parameters used in determining
the analysis including instrument
make and model, reading times,
calibrations factors applied
and their derivation, etc.
Quality Nature of quality control Quality assurance is maintained by
of assay procedures adopted (e.g. standards, laboratory duplicate and standard sample
data and blanks, duplicates, external assaying procedure. Standard samples
laboratory laboratory checks) and whether are provided by Placer Consulting Pty
tests, cont'd. acceptable levels of accuracy Ltd and are submitted blind to the
(i.e. lack of bias) and precision laboratory. As a total sample is generated
have been established. by the drilling, a field duplicate
is not generated. A laboratory duplicate
is created at the sample splitting
stage.
Standards and duplicates are submitted
at a frequency of 1:20 samples. They
are subjected to the complete sample
preparation and assaying process.
Analysis of sample duplicates is undertaken
by standard geostatistical methodologies
(Scatter, Pair Difference and QQ Plots)
to test for bias and to ensure that
sample splitting is representative.
Standards determine assay accuracy
performance, monitored on control charts,
where failure (beyond 3SD from the
mean) triggers re-assay of the affected
batch.
A high level of accuracy and precision
are displayed in geostatistical analyses
to date.
Verification The verification of significant Significant intersections are customary
of sampling intersections by either independent from hand auger and sonic core drilling
and assaying or alternative company personnel. at the Eastern Minerals Project. Results
in excess of 20% THM are common and
in some cases, substantially higher
concentrations are intersected. Placer
Consulting considers this to be reasonable
and consistent with beach, berm and
foredune accumulations in a highly-mineralised
region. No audit analyses have been
completed on these exploration results.
The use of twinned holes. Twinned holes are drilled across a
geographically-dispersed area to determine
short-range geological and assay field
variability. Twin drilling is applied
at a frequency of 1:25 drill holes.
Geostatistical analysis of twin drilling
data awaits the return of all assay
results.
Documentation of primary data, Field logging data, photo's and maps
data entry procedures, data are generated in the field by the GSMB
verification, data storage geologist and provided to CMET staff
(physical and electronic) protocols. in excel spreadsheet, pdf document
and jpeg files. These data are stored
in the master database at the Colombo
office and on a secured cloud-storage
facility that is accessible by invitation.
Discuss any adjustment to Assay data adjustments are made to
assay data. convert laboratory collected weights
to assay field percentages and to account
for moisture.
Location Accuracy and quality of surveys These exploration results are located
of data points used to locate drill holes by GSMB staff using hand-held GPS.
(collar and down-hole surveys), Mineral resources are not considered
trenches, mine workings and in this report.
other locations used in Mineral
Resources estimation.
Specification of the grid The Kandawala Sri Lanka Grid is used
system used. to locate the drill collars.
Location Quality and adequacy of topographic Elevations are not recorded for these
of data points, control. exploration results.
cont'd.
Data spacing Data spacing for reporting Drill spacing relates to the sequence
and distribution of Exploration Results. stratigraphic unit and their extent.
Drill holes are generally spaced at
5m-east intervals in the beach and
tidal zones. The Berm zone is drilled
at 15 - 50m east spacings dependent
on their lateral extent.
Whether the data spacing and No mineral resource or ore reserve
distribution is sufficient is considered in this report.
to establish the degree of
geological and grade continuity
appropriate for the Mineral
Resources and Ore Reserves
estimation procedure(s) and
classifications applied.
Whether sample compositing Samples are not composited.
has been applied.
Orientation Whether the orientation of Sample orientation is vertical and
of data in sampling achieves unbiased approximately perpendicular to the
relation sampling of possible structures dip and strike of the mineralization,
to geological and the extent to which this which results in true thickness estimates.
structure is known, considering the deposit Drilling and sampling is consistent
type. with the anisotropy of the mineralisation.
If the relationship between There is no apparent bias arising from
the drilling orientation and the orientation of the drill holes
the orientation of key mineralised with respect to the strike and dip
structures is considered to of the deposit.
have introduced a sampling
bias, this should be assessed
and reported if material.
Sample security The measures taken to ensure All samples are numbered, with sample
sample security. splits, residues and HM sinks stored
securely at the GSMB pending completion
of the programme. Samples will be transferred
for secured storage at CMET property
upon completion.
Audits or The results of any audits The Competent Person completed an audit
reviews or reviews of sampling techniques of the GSMB laboratory. Personnel,
and data. equipment and procedures represent
best practice and no recommended improvements
were forwarded. Data are monitored
by CMET staff and reviewed by the CP
as they are returned.
Criteria Explanation Comment
Mineral Type, reference name/number, The exploration results are coincident
tenement location and ownership including with the granted Exploration Licence
and land agreements or material issues EL2017/199 wholly owned by CMET JV
tenure status with third parties such as partner Damsila Exports (Pvt) Ltd.
joint ventures, partnerships, A 7% f.o.b. government royalty is
overriding royalties, native payable on exported minerals.
title interests, historical
sites, wilderness or national
park and environmental settings.
The security of the tenure There are no known impediments to
held at the time of reporting the security of tenure over the area
along with any known impediments containing the reported exploration
to obtaining a licence to operate results.
in the area.
Exploration Acknowledgment and appraisal CMET and partners have completed the
done by other of exploration by other parties. only systematic exploration of this
parties region of the Eastern Minerals Project.
The reported results offer support
to previous drilling and in some cases,
higher heavy mineral grades and greater
lateral extent.
Geology Deposit type, geological setting Exploration results are indicative
and style of mineralisation. of modern, low slimes tidal, beach
and berm detrital heavy mineral sand
deposits. Holocene dunes are truncated
by the modern marine successions and
are also heavily mineralised. Heavy
minerals are derived originally from
the neighbouring Precambrian metamorphic
terrane and from Pleistocene dune
deposits. Two monsoon seasons provide
ample winnowing action on heavy mineral
deposits and generate both northerly
and southerly long-shore drift.
Drill hole A summary of all information An intercept table is listed in the
Information material to the understanding report.
of the exploration results Results support previous releases
including a tabulation of the on exploration results and mineral
following information for all resources.
Material drill holes:
-- easting and northing of
the drill hole collar
-- elevation or RL (Reduced
Level - elevation above sea
level in metres) of the drill
hole collar
-- dip and azimuth of the hole
-- down hole length and interception
depth
-- hole length.
If the exclusion of this information
is justified on the basis that
the information is not Material
and this exclusion does not
detract from the understanding
of the report, the Competent
Person should clearly explain
why this is the case.
Data aggregation In reporting Exploration Results, Mineral intersections are reported
methods weighting averaging techniques, at a 5% heavy mineral bottom cut,
maximum and/or minimum grade as is customary for the Eastern Minerals
truncations (e.g. cutting of Project resources. No top cut is applied.
high grades) and cut-off grades
are usually Material and should
be stated.
Where aggregate intercepts No data aggregation is required.
incorporate short lengths of
high grade results and longer
lengths of low grade results,
the procedure used for such
aggregation should be stated
and some typical examples of
such aggregations should be
shown in detail.
Data aggregation The assumptions used for any No metal equivalents are used for
methods, reporting of metal equivalent reporting of exploration results.
cont'd. values should be clearly stated.
Relationship These relationships are particularly All drill holes are vertical and perpendicular
between mineralisation important in the reporting to the dip and strike of mineralisation.
widths and of Exploration Results.
intercept
lengths
If the geometry of the mineralisation Mineral deposits typically approximate
with respect to the drill hole a horizontal to shoreward dipping
angle is known, its nature accumulation. Intercepts are approximately
should be reported. true thickness.
If it is not known and only
the down hole lengths are reported,
there should be a clear statement
to this effect (e.g. 'down
hole length, true width not
known').
Diagrams Appropriate maps and sections Refer to link to website as set out
(with scales) and tabulations in RNS.
of intercepts should be included
for any significant discovery
being reported These should
include, but not be limited
to a plan view of drill hole
collar locations and appropriate
sectional views.
Balanced Where comprehensive reporting Reporting of results is restricted
reporting of all Exploration Results to results returned to the 4(th) April
is not practicable, representative 2022 from the 2021 GSMB drilling in
reporting of both low and high the Komari Region of the Eastern Minerals
grades and/or widths should Project. Intercepts are disclosed
be practiced to avoid misleading in an unambiguous way and include
reporting of Exploration Results. all intercepts >5% THM and >0.5m in
thickness. Only 37 from 223 intercepts
are excluded by these criteria.
Other substantive Other exploration data, if No additional, substantive information
exploration meaningful and material, should has returned from the drill sample
data be reported including (but analyses included in this report.
not limited to): geological
observations; geophysical survey
results; geochemical survey
results; bulk samples - size
and method of treatment; metallurgical
test results; bulk density,
groundwater, geotechnical and
rock characteristics; potential
deleterious or contaminating
substances.
Further The nature and scale of planned Further sample assay results are anticipated
work further work (e.g. tests for from the GSMB to complete this drilling
lateral extensions or depth and assay campaign. Mineralogical
extensions or large-scale step-out results are anticipated from the total
drilling). sample set.
Diagrams clearly highlighting Refer to link to website as set out
the areas of possible extensions, in RNS.
including the main geological
interpretations and future
drilling areas, provided this
information is not commercially
sensitive.
APPIX 2 - Significant intercepts (5%THM bottom-cut, intervals
> 0.5m)
BHID INTERCEPT
K27TE2 1m @ 86.1% THM from 0.5m
K7T1 0.5m @ 70.86% THM from 0m
K36TE1 0.5m @ 56.77% THM from 0m
K33TE1 0.5m @ 54.9% THM from 0m
K24BE1 0.5m @ 53.54% THM from 0m
K9TE1 0.5m @ 50.45% THM from 0m
K36TE2 0.6m @ 50.43% THM from 0.5m
K37BE1 2.4m @ 50.14% THM from 0m
K37TE1 0.5m @ 49.71% THM from 0m
K36BE1 2.5m @ 46.4% THM from 0m
K6T1 0.5m @ 44.37% THM from 0m
K9TE2 1m @ 42.48% THM from 0.5m
K37TE2 0.5m @ 42.21% THM from 0.5m
K33TE2 0.5m @ 40.02% THM from 0.5m
K40BE1 2.5m @ 38.29% THM from 0m
K39TE1 0.5m @ 37.63% THM from 0m
K9T1 0.5m @ 36.91% THM from 0m
K29BE1 1.1m @ 35.595% THM from 0m
K33BE1 2.2m @ 34.80% THM from 0m
K35TE1 0.5m @ 34.23% THM from 0m
K38TE1 0.5m @ 33.53% THM from 0m
K29TE1 0.5m @ 33.49% THM from 0m
K9BM1 3.5m @ 33.4025% THM from
0m
K12TE1 0.5m @ 33.22% THM from 0m
K7BM2 2.3m @ 31.925% THM from 0m
K33BE2 2.2m @ 31.80% THM from 0m
K8BM1 1.5m @ 31.745% THM from 0m
K35TE2 1m @ 31.06% THM from 0.5m
K8TE1 0.5m @ 30.83% THM from 0m
K14TE2 1m @ 30.5% THM from 0.5m
K16BE1 1.5m @ 29.47% THM from 0m
K16TE1 0.5m @ 29.32% THM from 0m
K35BE1 2.5m @ 29.03% THM from 0m
K13BM1 1.5m @ 29.005% THM from 0m
K8BM2 1.5m @ 28.97% THM from 0m
K8BE1 1.5m @ 28.745% THM from 0m
K6BM2 1.5m @ 28.665% THM from 0m
K12BE1 1.5m @ 28.3% THM from 0m
K7BE1 1.5m @ 28.285% THM from 0m
K38BE1 1.5m @ 28.12% THM from 0m
K10BE1 2.5m @ 28.1% THM from 0m
K5BM2 1.5m @ 27.355% THM from 0m
K33BM1 2.5m @ 27.10% THM from 0m
K16TE2 1m @ 26.91% THM from 0.5m
K12BM1 1.5m @ 26.89% THM from 0m
K28TE1 0.5m @ 26.7% THM from 0m
K6BM1 1.5m @ 26.65% THM from 0m
K39BE1 1.5m @ 26.42% THM from 0m
K38BM3 1.5m @ 26.385% THM from 0m
K1T1 0.5m @ 26.2% THM from 0m
K39BM3 1.5m @ 26.195% THM from 0m
K34BE1 2.2m @ 26.19% THM from 0m
K5BE1 2.2m @ 26.08% THM from 0m
K9BM2 2.2m @ 25.99% THM from 0m
K14BE1 1.5m @ 25.75% THM from 0m
K15BE1 1.5m @ 25.74% THM from 0m
K39BM2 1.5m @ 25.74% THM from 0m
K37BM1 1.5m @ 25.665% THM from 0m
K7TE1 0.5m @ 25.65% THM from 0m
K6BE1 2m @ 25.64% THM from 0m
K19TE1 0.5m @ 25.62% THM from 0m
K11BE1 2.5m @ 24.775% THM from 0m
K25TE2 1m @ 24.37% THM from 0.5m
K11TE1 0.5m @ 23.96% THM from 0m
K5BM1 1.5m @ 23.93% THM from 0m
K9BE1 1m @ 23.91% THM from 0.5m
K26BE1 1.5m @ 23.775% THM from 0m
K3TE1 0.5m @ 23.75% THM from 0m
K39BM1 1.5m @ 23.52% THM from 0m
K38BM2 1.5m @ 23.29% THM from 0m
K7BM1 2.2m @ 23.13% THM from 0m
K36BM2 0.5m @ 23.04% THM from 0m
K34TE1 0.5m @ 22.99% THM from 0m
K36BM1 1.5m @ 22.71% THM from 0m
K15TE2 1m @ 22.35% THM from 0.5m
K26TE1 0.5m @ 22.29% THM from 0m
K25TE1 0.5m @ 22.18% THM from 0m
K34TE2 1m @ 22.11% THM from 0.5m
K21TE1 0.5m @ 21.87% THM from 0m
K2TE1 0.5m @ 21.79% THM from 0m
K13TE1 0.5m @ 21.58% THM from 0m
K20TE1 0.5m @ 21.3% THM from 0m
K26TE2 1m @ 20.88% THM from 0.5m
K10BM1 1.5m @ 20.855% THM from 0m
K40BM2 1.5m @ 20.66% THM from 0m
K40BM3 1.5m @ 20.54% THM from 0m
K8TE2 0.5m @ 20.46% THM from 0.5m
K41TE1 0.5m @ 20.43% THM from 0m
K38BM1 1.5m @ 20.35% THM from 0m
K11BM1 1.5m @ 20.315% THM from 0m
K31BE1 1.1m @ 20.29% THM from 0m
K13BE1 1.5m @ 20.035% THM from 0m
K27TE1 0.5m @ 19.85% THM from 0m
K6TE2 0.7m @ 19.64% THM from 0.5m
K6TE1 0.5m @ 19.54% THM from 0m
K40TE1 0.5m @ 19.49% THM from 0m
K22TE1 0.5m @ 19.23% THM from 0m
K24T1 0.5m @ 18.95% THM from 0m
K19T1 0.5m @ 18.81% THM from 0m
K4TE1 0.5m @ 18.4% THM from 0m
K25BE1 1.5m @ 18.385% THM from 0m
K5TE1 0.5m @ 18.29% THM from 0m
K4BM1 0.5m @ 17.67% THM from 0m
K34BM1 2.5m @ 17.62% THM from 0m
K38TE2 0.5m @ 17.57% THM from 0.5m
K35BM1 2.5m @ 17.34% THM from 0m
K28TE2 1m @ 17.22% THM from 0.5m
K23T1 0.5m @ 17.18% THM from 0m
K37BM2 1.5m @ 17.025% THM from 0m
K13TE2 1m @ 16.93% THM from 0.5m
K31BM2 2.5m @ 16.64% THM from 0m
K22TE2 1m @ 16.38% THM from 0.5m
K37BM3 0.5m @ 16.28% THM from 0m
K40BM1 1.5m @ 16.23% THM from 0m
K32BM2 2.2m @ 16.14% THM from 0m
K19BE1 1.5m @ 15.955% THM from 0m
K23TE1 0.5m @ 15.65% THM from 0m
K12TE2 1m @ 15.56% THM from 0.5m
K32BE1 1m @ 15.185% THM from 0m
K4BM2 1.5m @ 15.01% THM from 0m
K22T1 0.5m @ 14.55% THM from 0m
K14TE1 0.5m @ 14.53% THM from 0m
K21TE2 1m @ 14.35% THM from 0.5m
K34BM2 2.5m @ 14.27% THM from 0m
K32TE1 0.5m @ 14.2% THM from 0m
K35BM2 2.2m @ 14.16% THM from 0m
K2T1 0.5m @ 14.03% THM from 0m
K24BM1 1.5m @ 14.025% THM from 0m
K21T1 0.5m @ 14.02% THM from 0m
K18TE1 0.5m @ 13.56% THM from 0m
K28BE1 1.5m @ 13.505% THM from 0m
K21BM1 2.5m @ 12.76% THM from 0m
K11TE2 0.7m @ 12.29% THM from 0.5m
K31TE1 0.5m @ 12.14% THM from 0m
K21BE2 1.5m @ 12.14% THM from 0m
K32BM3 2.5m @ 12.02% THM from 0m
K30BM2 3.5m @ 11.785% THM from 0m
K3BM1 1.5m @ 11.665% THM from 0m
K29BE2 1.2m @ 11.645% THM from 0m
K22BM1 2.5m @ 11.63% THM from 0m
K3BM2 1.5m @ 11.565% THM from 0m
K28BM1 1.5m @ 11.03% THM from 0m
K4T1 0.5m @ 10.98% THM from 0m
K22BE1 0.5m @ 10.9% THM from 0m
K22BE2 1.5m @ 10.895% THM from 0m
K10T1 0.5m @ 10.8% THM from 0m
K27BM1 1.5m @ 10.725% THM from 0m
K2BM2 1.5m @ 10.62% THM from 0m
K18TE2 0.7m @ 10.39% THM from 0.5m
K31BE2 1.2m @ 10.195% THM from 0m
K2BM1 1m @ 10.15% THM from 0.5m
K19TE2 1m @ 10.09% THM from 0.5m
K32BE2 1.2m @ 10.085% THM from 0m
K11T1 0.5m @ 9.97% THM from 0m
K10TE2 0.7m @ 9.9% THM from 0.5m
K5TE2 0.6m @ 9.68% THM from 0.5m
K30BE1 0.5m @ 9.08% THM from 0m
K27BE1 0.5m @ 8.58% THM from 0m
K17BE1 1m @ 8.495% THM from 0m
K21BE1 1.5m @ 8.43% THM from 0m
K18BE2 1.5m @ 8.34% THM from 0m
K17TE2 0.7m @ 8.22% THM from 0.5m
K25BM1 2.5m @ 8.11% THM from 0m
K20BM1 1.5m @ 7.975% THM from 0m
K30BM1 1.5m @ 7.89% THM from 0m
K3TE2 1m @ 7.85% THM from 0.5m
K20TE2 1m @ 7.69% THM from 0.5m
K26BM1 2.5m @ 7.58% THM from 0m
K10TE1 0.5m @ 7.5% THM from 0m
K4BE1 1.5m @ 7.49% THM from 0m
K3T1 0.5m @ 7.35% THM from 0m
K4TE2 1m @ 7.32% THM from 0.5m
K1BE3 1.5m @ 7.265% THM from 0m
K2BE2 1.5m @ 7.20% THM from 0m
K1BM1 1.5m @ 7.09% THM from 0m
K3BE1 1.5m @ 6.86% THM from 0m
K41T1 0.5m @ 6.81% THM from 0m
K23BM2 1.5m @ 6.415% THM from 0m
K24BM2 1.5m @ 6.37% THM from 0m
K19BM1 0.5m @ 6.22% THM from 0m
K17T1 0.5m @ 6.1% THM from 0m
K12T1 0.5m @ 5.74% THM from 0m
K31BM3 2.5m @ 5.63% THM from 0m
K1BE2 0.5m @ 5.45% THM from 0m
K17TE1 0.5m @ 5.35% THM from 0m
K24TE1 0.5m @ 5.09% THM from 0m
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END
DRLUROVRUVUSURR
(END) Dow Jones Newswires
April 20, 2022 02:11 ET (06:11 GMT)
Equatorial Palm Oil (LSE:PAL)
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