ENVIRONMENTAL & SOCIAL MANAGEMENT PLAN
for
PHCN-TCN Transmission Substation
Rehabilitation/Re-enforcement Projects under the NEGIP
(ABA)
PHCN-PMU
August 2009
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Table of Contents
1.0 INTRODUCTION 4
1.1 Project Background 4
1.2 Project Locations 5
1.3 ESMP Goals and Objectives 5
2.0 INSTITUTIONAL ARRANGEMENTS 7
2.1 Resourcing 7
2.2 Responsibilities 7
2.3 ESMP Guidelines 7
ESMP Audit Programme
ESMP Implementation Organogram 8
3.0 Details of Substation Rehabilitation/Reinforcement Work 8
4.0 Substation Risk assessment and Management 11
4.1 Project Potential and Associated Impact Identification 12
4.2 Impact Characterization 12
5.0 Impact Mitigation Measures 16
6.0 DETAILED DESIGN FOR CONSTRUCTION & INSTALLATION 27
6.1 Design Implementation 27
6.2 Land take and Vegetation Clearance 27
6.3 Foundation works/Land/Sand Filling & Surfacing 27
6.4 Use of Public Access Road 27
6.5 Sacred Archaeological Sites 27
6.6 Hydrological Properties & Drainage Protection 27
6.7 Pollution Control 28
6.7.1 Air Pollution 28
6.7.2 Water & Soil Pollution 28
6.7.3 Noise Pollution 28
6.8 Transport Operation 28
6.8.1 Pre-mobilization of Vehicles 29
6.9 Inspection & Maintenance 29
6.10 Quality Assurance / Quality Control 29
7.0 ENVIRONMENTAL MONITORING PLAN 30
7.1 Monitoring Objectives 30
Monitoring Programme 31
7.2 Regulatory Compliance Plan 32
8.0 Work, Safety & Health Plan 32
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8.1 Use of Work Permit 32
9.0 Waste Management Plan 33
9.1 Waste Handling 33
9.2 Waste Type & Identification 33
9.3 Waste Minimization & Reduction 34
9.4 Waste Segregation 35
9.5 Waste Disposal 35
10.0 General Site Safety Plan 35
10.1 Journey Management Plan 36
10.2 Accident / Incident Management Plan 36
10.3 Emergency Response Plan 37
10.4 Consultation Plan 38
10.5 Communication Plan 39
10.6 Commissioning / Hand over Plan 40
11.0 Decommissioning /Abandonment Plan 40
ABBREVIATIONS
ALARP As low as reasonably possible
CBOS Community Based Organisations
ERSU Environment, Resettlement & Social Unit
EPIC Engineering, Procurement, Installation and Commissioning
EER Environmental Evaluation Report
HSE Health Safety and Environment
JHA Job Hazard Analyses
NGO Non Governmental Organization
PCB Poly Chlorinated Biphenyl
PHCN Power Holding Company of Nigeria
PMU Project Management Unit
PPE Personal Protective Equipment
PRA Preparatory Rural Assessment
RCP Regulatory Compliance Plan
TCN Transmission Company of Nigeria
WWI Written Work Instructions
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1.0 INTRODUCTION
1.1 Project Background
This document presents the Environmental & Social Management Plan (ESMP) for the
proposed Substation reinforcement/rehabilitation projects under the World Bank
sponsored National Electricity and Gas Improvement Project NEGIP.
The NEGIP by environmental screening is a category ‘A’ project according to World
Bank standards requiring a full environmental impact assessment for fresh subprojects
and environmental audit for existing Project sites. The likely over all impacts of NEGIP
considering the diversity of the scope are large scaled, covering a wide area, and
affecting a large population and diverse habitats and ecosystems. This document then
is aimed at improving the viability of investing in the Substation
rehabilitation/reinforcement from an environmental and social management perspective.
By using this tool effectively, the anticipated potential environmental and social impacts
associated with the substation projects will be minimized to the barest minimum thereby
making the projects more sustainable.
NEGIP is an Adaptable Program Loan (APL) aimed at assisting the Federal
Government of Nigeria, through a combination of partial risk guarantees (PRG), for gas
supply to generation stations and International Development Association (IDA)
investments and technical assistance aimed at improving and developing the Nigerian
power sector (substation reinforcement/rehabilitation, transformer repair shop and
distribution facilities improvement etc). It follows a programmatic approach, and will
consist of numerous investments broken into subprojects and guarantees over an
extended time period.
This ESMP provides the bases for managing the environmental and social issues
involved with the implementation of the substation subprojects activities, by
demonstrating how adverse and beneficial environmental as well as socio-economic
and health effects will be managed in all phases of the project implementation. It
therefore describes in specific terms how environmental, health and socio-economic
commitments to be encountered in the Project implementations will be handled.
1.2 Project Location
These rehabilitation projects are being carried out in the PHCN 132/33 kV transmission
Substation in Aba in Abia state. As part of the efforts to improve the Nigerian electricity
transmission infrastructure. Most of the facilities in this station are old and (on paper)
have out lived their life spans. More so, the technology used in manufacturing some of
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the installed equipments is old and have since been phased out by the manufacturers
thereby making it almost impossible to source their spares.
As all PHCN transmission Substations are similar in lay out, equipment content and are
under the same management (TCN), the content of this ESMP is applicable to all
Substations owned and managed by TCN-PHCN. For the purpose of this write-up, the
Aba 132/33kV Substation at Abia state was visited for direct data gathering.
ESMP Goals and Objectives
The Environmental & Social Management Plan of this aspect of the NEGIP project was
developed in line with World Bank and ISO 14001 Environmental Management System
(EMS) Specifications; other national and international regulatory requirements; and
PHCN Health, Safety and Environmental & Social Management System as documented
in the filed Project ESMF with the Ministry of Environment of the Federal Republic of
Nigeria in 2009.
The ESMF Objectives are to:
Ensure that substation rehabilitation activities are carried out in such a way as to
avoid harms to PHCN employees, contractors and all other stakeholders that
may be affected directly or indirectly by the facility operations.
Ensure that all hazards associated with the S/S rehabilitation and operations
have all been properly identified and assessed. Barriers militating against the
project established and material recovery and emergency measures put in place.
Enforce safe and healthy procedures and practices in all operations and strive
towards an incident free workplace.
Ensure that appropriate trainings are given to staff and adequate equipments are
provided to enable staff work in a healthy and safe manner.
Maintain effective communication with all relevant parties and in particular
communicating ERSU issues to the entire workforce.
Demonstrate visible PHCN management commitment to ERSU issues.
Set clear ERSU targets to staff involved in the project.
Carry out regular review of ERSU performance against targets.
Ensuring that all operations are undertaken with proper regards for the
environment, and strive to reduce environmental risk to a level that is as low as
reasonably practicable.
These objectives shall be achieved by:
Ensuring compliance with all stipulated legislation on protection of the
environment.
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Integrating social and environmental issues fully into the project development
and operational philosophies.
Promoting social and environmental awareness among workers and
communities around the project sites.
Rationalising and streamlining existing social and environmental activities to
add value, efficiency and effectiveness to the Projects
Ensuring that only environmentally sound procedures are employed during
the different project phases and associated activities
Continuous consultations with relevant regulatory bodies (FMENV, relevant
State environmental protection agencies and other stakeholders), throughout
the projects’ lifecycles.
This ESMP shall remain a dynamic working tool throughout the construction and
operational life span of these Stations. It shall be reviewed with possible changes in
regulatory regimes and in the event of new policies or guidelines from PHCN, WB or the
Nigerian Environmental regulatory bodies. Periodic reviews and updating shall also be
carried out throughout the project lifecycle, to incorporate better management systems
and economic policies.
ESMP Audit Programme
This audit shall be conducted on regular basis to monitor compliance with the project
ESMP. The scope will cover the major project activities including the overall
requirements throughout the life of the project. PHCN performance towards meeting
these requirement will be assessed.
Generally, the audit programme will be conducted bi-annually during construction and at
start up and every five (5) years during operations. The findings from these audits will be
reported to the site ERSU Manager and corrective action plans will be developed and
followed up for performance improvement.
2.0 INSTITUTIONAL ARRANGEMENTS
2.1 Resourcing
Environment, Resettlement and Social Units will be set up in PHCN-TCN and in all the
Substations to be rehabilitated. On site ERSU Manager shall be responsible for all
ERSU-related matters throughout the project period and later during project operations
in order to ensure compliance with environmental regulatory standards. For effective
project implementation, the site ERSU Manager shall work in liaison with the
Contractors’ Engineers & Environmental Officers, and TCN site Engineers to form the
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Project Management Team (PMT) and the team will report directly to the Project
management Unit of PHCN during the construction period and later to TCN during
operations period.
The Project implementation Organogram defining the line of Communication in the
proposed Substation rehab/reinforcement (NEGIP) Project is presented below.
Responsibilities
Power Holding Company shall retain the primary responsibility of ensuring that
environmental and social commitments are met throughout the project lifespan. The
company shall establish a schedule of responsibility and improvement on matters
relating to social and the environment. Environmental and social issues shall be seen as
a line of responsibilities for which all levels of personnel are accountable.
ESMP Guidelines
The detailed preliminary ESMP guideline developed to cover the entire phases and
activities of the proposed NEGIP Project including responsibilities for implementation
are presented in the Table below.
PHCN - PMU
Site ERSU Manager
Contractor/PHCN
Project Mgt. Team (PMT)
Environmental Officer Site HSE Officer Site Engineers
Figure: Project Implementation Organogram
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3.0 DETAILS OF THE SUBSTATION REHABILITATION WORK
These will involve overhauling of the old 1 X 45MVA 132/33kV and 2X30 MVA
Transformers, overhauling of 132kV and 33kV Circuit Breakers, overhauling of 132kV
and 33kV Isolators and earth switches, overhaul of Protection and Control Scheme of
the Station, rehabilitation of the 2KM access road to the substation and extension of 33
KV switch yard Supply and installation of 1X60 MVA 132/33kV transformers with
associated Switch-Gears to replace.
In view of these activities, if proper management of the social, environmental, health and
safety issues are not taken care of, the projects might not be as sustainable as required
according to the World Bank standard. It is based on this that this ESMP becomes very
necessary.
This ESMP is therefore designed to address the environmental and social impacts that
might arise from the rehabilitation activities at the Aba Transmission Substation. It will
also proffer solutions to the lingering environmental issues like house keeping, security,
oil spillage and disposal of scrap materials, e.t.c and also put in place a well trained
Environment, Resettlement and Social Unit (ERSU) that will ensure strict compliance
with World Bank, Nigerian and other International environmental standards in the day to
day running of the PHCN owned Substations.
4.0 Substation Project Risk Assessment and Management
For any Projects of this nature, Risk management is an integral part of the project
execution. The risks related to these projects’ execution and operations were identified
by a structured approach during the project planning stage. Risk assessment visits by
ERSU/Safeguard specialists were conducted in advance of implementation activities to
allow for risk resolution without work interruption during implementation. Results of the
risk assessments and the associated risks reduction measures were evaluated and
documented by the PMU-ERSU and appropriate levels of the TCN site management
staff in the affected substations. This document therefore is a product to be used for
reducing project risks to an acceptable level at a reasonable cost to TCN. Upon project
completion, all other unforeseen risks and their associated resolutions shall be
documented for handover to the site operations personnel who will take over the Project
and continue the operations of the completed facilities.
The responsibility of risk management for these projects during implementation shall lie
with both the Project Management Team (PMT) comprising of the PMU, the rehab
Contractors and the TCN Site management. The environmental and social monitoring
by the PMU-ERSU will reveal if the Contractor project implementation processes are
being successful.
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The majority of the workers involved in the construction phases of the project will be
Contractors staff, therefore Contractor will pay particular attention to applying
appropriately controlled mitigation measures for their work. Contractors shall ensure that
their HSE system are in line with this ESMP Guidelines. The Contractors working with
Job specifications developed by PMU-ERSU will have direct responsibility for executing
the work using sound engineering fabrication, installation and commercial practices
while maintaining adequate controls. The designs will take into account applicable
Nigerian environmental laws and regulations, and in the absence of such, generally
accepted industry standards shall be used. The Contractors will develop operating
manuals and appropriate documentation regarding the proper operation and
maintenance of the facility for approval by PMU-ERSU. This data will be provided to the
PMU in a timely manner that facility-specific training can be given to the concerned
personnel prior to start-up. Details of what is contained in the Contractors’
environmental manuals will be used by the ERSU in monitoring the job of the
Contractors.
4.1 Project Potential and Associated Impacts
The potential and associated impacts of the NEGIP Sub-station rehabilitation project is
based on observed issues during the risk assessment visits to the Substation and the
FMENV sustainability criteria. The visit to the mentioned Substation revealed the
following:
1. Poor gravelling of the switch yard.
2. Most of the cable trenches are broken and exposed.
3. Water logging of the substation and switch yard.
4. Poor condition of the access road to the station.
5. Dilapidated security fence of substation and switch yard.
6. The whole station is filled up with overgrown weeds.
7. PCB transformer oil leakages
8. There is no space for expansion.
9. The environmental management of this station is not satisfactory and ERSU unit
does not exist.
10. The environmental health and safety of the staffs is poor because the staffs do
not have personal protective equipments to work with.
The nature and duration of the various impacts of the project activities on the ecological
components were identified as follows:
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4.2 Impact Characterisation
In order to further describe the nature and duration of the various project activities on
the biophysical and socio-economic environment, the identified impacts were further
characterised as direct / indirect, beneficial / adverse, normal / abnormal, short-term /
long-term, reversible / irreversible, cumulative and residual.
Beneficial Impacts: these are impacts that would produce positive effect on
the biophysical or socio-economic environment.
Adverse Impacts: these are impacts that may result in:
Irreversible and undesirable change(s) in the social and/or biophysical
environment;
Decrease in the quality of the biophysical or social environment;
Limitation, restriction or denial of access to or use of any component of the
environment to others, including future generations; and
Sacrifice of long-term environmental viability or integrity for short-term
economic goals.
Direct Impacts: these are impacts resulting directly (direct cause-effect
consequence) from a project activity.
Indirect Impacts: these are impacts that are at least one step removed from
a project activity. They do not follow directly from a project activity.
Normal Impacts: these are impacts that will normally be expected to follow a
particular project activity.
Abnormal Impacts: An impact is considered to be abnormal when it follows
a project activity as against sound predictions based on experience.
Short-term Impacts: these are defined as impacts that will last only within
the period of a specific project activity.
Long-term Impacts: these are impacts whose effects remain even after a
specific project activity.
Reversible Impacts: these are impacts whose effects can be addressed on
application of adequate mitigation measures.
Irreversible Impacts: these are impacts whose effects are such that the
subject (impacted component) cannot be returned to its original state even
after adequate mitigation measures are applied.
Cumulative Impacts: these are impacts resulting from interaction between
ongoing project activities with other activities, taking place simultaneously.
Incremental Impacts: these are impacts that progress with time or as the
project activity proceeds.
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Residual Impacts: these are impacts that would still remain after mitigation
measures have been applied.
Table 4.1: Characterised Potential and Associated Impacts of the Proposed Substation
Rehabilitation/Reinforcement Project of NEGIP
Project Activities &
Environmental Aspects Potential and Associated Impacts
Character of
Impact
Mobilisation of personnel,
materials and equipment to
project site
Risk of road accidents from increased
vehicular movement on local roads and
damage to the road by heavy vehicles to be
used
Adverse, direct,
normal, reversible,
cumulative
Socio-cultural conflicts due to differences in
customs of migrant worker and local
residents
Adverse, direct,
abnormal, short-
term, reversible
Changes in demographic pattern/disruption
of socio cultural pattern
Adverse, direct,
normal, reversible,
cumulative,
residual
Introduction of communicable diseases
(STDs, HIV, hepatitis b & c, TB & gastro-
intestinal) into the project communities
Adverse, direct,
normal, short-
term, reversible,
cumulative,
residual
Air/noise pollution from increased vehicular
movement
Adverse, direct,
abnormal,
reversible,
cumulative,
residual and short
term
Preparation of the Equipment
bases clearing at construction
points, within the Substations
and necessary point along the
access roads
Damage to lawns within the Substations
and also alteration in the stone chipping
layers covering the Substation switch yards
Adverse, direct,
normal, short-term,
reversible,
Loss of business hours and disturbance of
residents and staff along the access routes
during mobilization
Adverse, direct,
normal,
irreversible, long-
term residual
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Employment of local labour Beneficial, normal,
long-term
De-vegetation/loss of vegetation at
construction points.
Adverse, direct,
normal, short-term,
reversible
Fuel Storage Soil/groundwater contamination from
accidental leak or spill of stored fuel and
transformer oil at camp/construction sites
Adverse, indirect,
normal, short-term,
reversible,
cumulative
Foundation for the transformers
and associated equipment
Soil erosion, dust and accident due to falls
and damage to vegetation/alteration in the
gravelled substation switch yard.
Adverse, indirect,
abnormal, short-
term
Noise and vibration from construction
equipment
Adverse, direct,
normal, short-term,
reversible
Respiratory tract infections due to inhalation
of dust and toxic fumes during construction
activities
Adverse, direct,
normal, short-term
Risk of electrocution and burns (to onsite
workers during construction)
Adverse, direct,
normal, short-term
Induced secondary development in the
substations (work camps/stores)
surrounding by Contractor during
construction activities
Adverse, direct, normal, short-term, reversible
Engagement of indigenous labour and
supplies and stimulation of local economies
Beneficial, direct, normal, short-term, reversible
Rehabilitation/Reinforcement of the Transformers and ancillary equipments
Youths/community restiveness especially
during recruitment of local labour
Adverse, direct,
abnormal, short-
term, reversible
Community restiveness during heavy
vehicular movement due to road congestion
and damages
Adverse, direct,
abnormal, short-
term, reversible
Decommissioning of old transformers, solid
wastes and spillage of the transformer oil
suspected to contain PCB
Adverse, direct,
abnormal, long-
term, reversible
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Decommission and Closure Station
Electric shock and severe burns to workers
during decommissioning
Adverse, indirect,
abnormal, long-
term, irreversible
Impaired aesthetic resources due to visual
presence of wastes and scraps
Adverse, direct,
abnormal, long-
term, reversible,
residual
Direct poisoning of vegetation/soil
contamination due to uncontrolled
application of maintenance,
chemical/herbicide
Adverse, direct,
abnormal, short-
term, irreversible
5.0 Environmental Impact Mitigation Measures for the Substation Rehabilitation
Project
Below is the table showing the intended mitigation measures for the key environmental
and social impacts of the NEGIP substation rehabilitation/reinforcement project.
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Project Phase / Environmental Aspects
Critical Control Point Mitigation Measures
Action Party
Site 1.Preparation
Mobilisation of
personnel, material
and equipment to
project area
Transportation vehicles
& routes
Contractor trucks shall be
properly
serviced/maintained before
mobilisation
Contractor shall
mobilise heavy duty
trucks carrying
equipments in the night
to avoid traffic
delays/accidents
Outriders shall be
engaged when
possible and used
during mobilisation of
heavy duty trucks and
equipment.
Radio/TV
announcements shall
be made to inform the
general public of
activities/movements
Contractor shall
engage and use traffic
control wardens at
strategic points on
local roads
Strategic road
signs/warnings shall be
placed on local roads
PHCN shall enforce
approved speed limits
on local roads among
its drivers and
Contractors’ personnel
ERSU
Manager/PMT
15
Local roads
Work sites
Recreational
facilities
Markets, etc.
Contractor shall survey
and make use of best
road access to site and
repair damaged road
points/areas damaged
as a result of the
movement of their
equipment to site
Contractor shall
educate its workers on
the socio-cultural
norms of the host
communities so as to
conform to laid down
customs and norms of
the local community
Recreation areas
should be avoided by
vehicles carrying
equipments as those
areas are always busy
and they may cause
hold ups.
The above situation
applies to market
places
ERSU
Manager/PMT
ERSU
Manager/Comm
unity Relations
Officer
16
Site Preparation
Mobilisation of
personnel,
material and
equipment to
project area
Base campsite
Communities
Prior to mobilisation,
Contractor shall screen
all personnel for
communicable and
other diseases
Contractor shall
conduct a health and
safety awareness for
staff and host
communities
Contractor shall carry
out periodic health
screening for staff
while on site and
identified cases shall
be promptly isolated
for proper medical
attention
ERSU
Manager/PMT
/ Community
Relations Officer
Operational Vehicles Contractor shall ensure
that its operational
vehicles are at optimal
operating conditions
Site HSE Co-
ordinator/ transport
supervisor
Site Preparation
Vegetation clearing
at construction sites
Construction areas to
be cleared
Contractor shall limit
vegetation clearing to
minimum area required
for the campsite,
construction site and
access roads
Disturbed and
unwanted areas at
campsite, and access
roads shall be re-
vegetated with
appropriate local
species
Site
ERSU Manager/
Site Engineers
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Project Phase / Environmental
Aspects
Critical Control Point Mitigation Measures
Action Party
Site Preparation
Fuel storage
Storage area
Storage containers shall be
periodically checked for leaks
Operators shall be trained on
safe fuel handling practice
Containers shall be provided
with secondary containment
capable of holding 110% of its
contents
Site HSE
Co-ordinator
Construction
Plinth for
transformer bases
and Installation of
other related S/S
equipment
Within the Substations Contractor shall employ best
engineering practice in the
excavation of the pits and for
ancillary facilities in order to
avoid adverse alteration of the
hydrological pattern of flow
Dug up areas shall be promptly
and properly restored
Site HSE
Co-ordinator / Site
Engineers
Construction points Contractor shall maintain all
construction equipment at
optimal operating conditions in
order to reduce noise and
vibration
Site ERSU
Manager
HSE Co-ordinator/
Site PMT
Health and Safety at
excavation points
Contractor shall design and
enforce workplace safety
procedures at sites based on
this hazard to prevent accidents
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Project Phase / Environmental
Aspects
Critical Control Point Mitigation Measures
Action Party
Welding of
materials, erection
of transformers and
Installation/operation
of other S/S
equipments
Welding/construction
points
Specialized PPE shall be provided
and usage enforced during welding
activities
Site HSE
Co-ordinator/ Site
Engineers
Worksites Contractor shall design work
place procedures in line with
standard industrial practice
Specialised PPE shall be
provided for all on site workers
ERSU
Manager/Site HSE
Co-ordinator/ Site
Engineers
All pits/holes dug during
construction works shall be
appropriately filled.
Project Phase / Environmental
Aspects
Critical Control Point Mitigation Measures
Action Party
Welding of
materials, erection
of transformers and
Installation/operation
of other S/S
equipments
Campsite Contractor shall develop
comprehensive plan for location
of secondary development
ERSU Manager/PMT
Construction points Contractor shall ensure that its
construction equipment are
maintained and operated at
optimal conditions to reduce
emissions capable to air
pollution
Site HSE Co-ordinator
Installation points Contractor shall design, enforce
and maintain good work place
procedures in line with industry
standard and regulatory
requirement on safety
Standard work instructions for
HSE critical activities shall be
developed and enforced
ERSU
Manager/Site HSE
Co-ordinator/ Site
Engineers
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Point of mobilisation Prior to mobilisation Contractor
shall screen all personnel for
communicable and other
diseases
Contractor shall conduct a
health and safety awareness for
staff and host communities
ERSU
Manager/Site HSE
Co-ordinator
Recruitment point
Contractor shall ensure that the
content of the memorandum of
understanding between it and
the host communities on
employment are religiously
followed
ERSU
Manager/Communi
ty Relations Officer
Project Phase / Environmental
Aspects
Critical Control Point Mitigation Measures
Action Party
Welding of
materials, erection
of transformers and
Installation/operation
of other S/S
equipments
Transmission line Where transmission lines are to
be involved, Contractor shall
maintain the selected route for
the transmission line (with
minimal interference with areas
of human activity)
Site HSE
Co-ordinator
Adequate and automatic
fault/damage detection system
shall be installed where possible
Personnel shall be trained on
the detection/handling of such
emergencies arising from
shocks or accidental damages
Site Engineers
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Contractor shall install
specialised fire
detection/prevention equipment
at the substation
Staff shall be trained on
emergency fire/explosion
handling procedure
Contractor shall design and
maintain work place procedures
in line with industrial standards
ERSU
Manager/Site HSE
Co-ordinator Site
Engineers
Control rooms in the
Station (substation)
Adequate and automatic
fault/damage detection system
shall be installed
Personnel shall be trained on
the detection/handling of such
emergencies arising fro
accidental damages
Site Engineers
Project Phase / Environmental
Aspects
Critical Control Point Mitigation Measures
Action Party
Welding of
materials, erection
of transformers and
Installation/operation
of other S/S
equipments
Substation safety
Contractor shall install
automated monitoring system
(CCTV) to check unauthorised
entry
Emergency response plan shall
be put in place for such
developments as
sabotage/vandalization
Site Engineer/
Site HSE
Co-ordinator
Contractor shall use only trained
and competent personnel for all
maintenance works
Maintenance personnel shall be
provided with appropriate PPE
Personnel shall be trained on
handling of emergencies
ERSU
Manager/Site HSE
Co-ordinator
21
Substation House
Keeping
Substation environment shall be
properly maintained and kept in
good healthy condition.
Lawns must be planted with
indigenous flower species and
grassed accordingly
Management shall maintain
naturally low growing vegetation
within the Substations
Management shall explore the
option of always using
mechanical maintenance
techniques
For chemical maintenance
option, Management shall
employ selective herbicide
application
Site Management shall maintain
appropriate gravelling level of
the Switch Yards
Equipment must be in sound
working condition and cleaned
as at and when due
Used transformer oil must be
disposed as appropriate in line
with regulatory requirements
Solid wastes must be disposed
of by using appropriate waste
disposal companies and in line
with laid down rules
ERSU
Manager/Site HSE
Co-ordinator
22
Project Phase / Environmental
Aspects
Critical Control Point Mitigation Measures
Action Party
Substation site location PHCN shall as much as practicable
avoid locating Substations near
market/city centres, tourist
attractions and places of special
value and interest to the people.
ERSU
Manager/PHCN
Engineers
Decommissioning /
Abandonment
PHCN shall ensure that the
decommissioning and abandonment
plan for the Substations and the
proposed projects are implemented
in details as contained in this
document.
ERSU
Manager/PHCN
Management
6.0 DETAILED GUIDELINES FOR THE SUBSTATION
REHABILITATION/REINFORCEMENT CONSTRUCTION AND INSTALLATION
This aspect of the ESMP is developed in such a way that it would be inserted in the Bid
documents for the intending Contractors to know what is expected of them during the
project implementation period. Based on their approved submission the PMU-ERSU will
monitor their site activities.
6.1 Project Design & Implementation
The design of the proposed Substation Rehabilitation Project of (NEGIP) is based on
Power Holding Company/TCN Operations, Maintenance and HSE guidelines as well as
relevant technical specifications in agreement with standard power and electrical
industry practices. These philosophies identify relevant standards, codes, practices and
specifications that apply to the technical/operating specifications to be used for the
design, construction and operations of the proposed NEGIP Project. The guidelines also
address controlling deviations from approved standards, codes, practices and
specifications, and providing feedback to improved standards.
6.2 Land Take & Vegetation Clearance
These Projects are to take place within existing TCN Substation and it is expected that
there will be no land take for this substation.
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All clearing works at the construction site and access roads shall be carried out within a
defined perimeters and only when and where necessary. Clearing of vegetation shall be
kept to the minimum necessary to permit safe operations. Trees felled from site shall be
re-utilized for the benefit of the substation/host communities. Areas cleared in excess of
operational requirements shall be reinstated with indigenous topsoil and vegetation.
6.3 Foundation Works, Land / Sand Filling and Surfacing
Work along access roads and construction site shall be carried out in such a manner
that there is no damage or interference with existing water courses or drainage systems,
utilities, structures, roads or other property of public or private, vehicular or pedestrians
access, other than to the extent that is necessary for them to be removed or diverted to
permit the execution of work within the defined operational perimeter. Any facilities
disturbed or damaged directly or indirectly due to foundation works, site excavations,
land/sand/gravel filling and surfacing activities shall be restored to the original condition.
The clean up and restoration plan shall be in accordance with regulatory requirements.
If existing watercourses and drainage systems are required to be temporarily diverted to
enable the works to be carried out, approval for such diversions shall first be obtained
from the relevant authorities. The diversion shall be maintained while the work is being
carried out and shall be re-instated, including the removal of any obstruction to
hydrological flow as soon as practicable after work is completed.
No excavated material or debris shall be permitted to enter existing drainage systems or
water courses. Settling ponds or other approved means shall be provided, if necessary
to ensure compliance to the requirements of the local authorities.
6.4 Use of Public Access Roads
All transportation, construction/installation and surfacing works shall be executed in
such a manner that will ensure that interference with the use of public roads is minimal.
However, if operational safety demands the blockage of public roads, then the site HSE
Coordinator may approve such operation only when temporary traffic control and
diversion arrangements have been provided.
Storage of litter/debris, tools and equipment in public or private roads shall be
prohibited. Contractors shall develop road clearing strategies to ensure that public roads
are kept clear, safe and passable throughout the duration of their job as they will not be
permitted to cause any public nuisance.
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6.5 Sacred / Archaeological Sites
Agreement shall be made with Contractors and relevant authorities working on site to
clearly demarcate areas of exclusion around existing sites of heritage and cultural value
to the host community. Contractors shall not remove or relocate any of such sites in the
course of project execution without notifying PHCN’s representative who shall make
necessary arrangements and obtain authorization from members of the affected
community before such removal or relocation.
6.6 Hydrological Properties and Drainage Protection
Contractors shall ensure that there will be minimal adverse environmental impact on the
drainage pattern of the project area, and that all hydrological characteristics and
qualities will be maintained at its present status or be improved upon.
During excavation, construction/installation works, the Contractors shall where
necessary ensure that the surface water flows on land or swamp areas are controlled
and if necessary channelled into temporary discharge pits. Such pits shall be located,
designed and constructed in a manner that will minimize the potential threat of erosion.
Muddy water and surface run-off from work sites shall be drained into suitable silt traps
before discharge into rivers or creeks. The silt trap shall be of adequate size and
regularly de-silted. Excessive site clearing shall be avoided and exposed surfaces shall
be re-vegetated as soon as practicable to minimize erosion.
6.7 Pollution Control
6.7.1 Air Pollution
In operating equipment, Contractor shall utilize all practical methods and devices
available in order to control, prevent and otherwise minimize atmospheric emissions or
the discharge of air contaminants. Good engine efficiency of equipment and vehicles
shall be adequately maintained. Indiscriminate burning of materials resulting from
clearance from trees, bushes and combustible materials shall also not be permitted.
6.7.2 Water and Soil Pollution
Pollution of surface water by wastewater, oil and other lubricants/ liquid wastes shall be
prevented by proper management practices. Drainage and effluent water from the
chemical/fuel storage and processing facilities shall be collected and treated to
approved regulatory requirements of 10ppm oil in water using wastewater treatment
plant to be installed before discharge.
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Contractor shall perform all excavation, construction and surfacing activities by methods
that will prevent pollution of the soil media by accidental spills of contaminants, debris,
and other objectionable pollutants. Regular checks shall be conducted on equipment to
minimize minor lube oil and combustible leaks from engines.
Safe distances and buffer zones shall be established between facilities, work sites and
host communities/substation staff to reduce the impact of high noise levels from the
facilities being reinforced or rehabilitated..
6.8 Transport Operations
The Contractor shall manage all transport operations in line with the following guidelines
in order to forestall accidents/incidents.
6.8.1 Pre-mobilization of Vehicles
All vehicles to be used for transportation of equipment, materials and personnel shall be
pre-mobilized by the site ERSU Manager. The pre-mobilization shall be conducted to
confirm that the vehicles and the drivers have the necessary competence needed for the
journey. It shall also be confirmed during pre-mobilization exercise that a Job Hazard
Analysis (JHA) has been conducted for the trip and that all recommended precautions
(mitigation measures) have been adopted.
6.9 Inspection and Maintenance Procedures for Contractor Equipments
In order to assist on maintaining the technical integrity of the facilities, a well defined
inspection and maintenance management system will be put in place in order to ensure
compliance with (safety) regulations. Contractor’s maintenance programme shall deal
with establishing the processes to develop and sustain necessary maintenance
procedures. The system shall address identifying and classifying procedures required as
to their impact on operating integrity, controlling deviations from procedures and
updating of procedures to capture lessons learned. It will also address training and
verifying competency for facility specific procedures.
The maintenance system will include plans and procedures for:
Normal maintenance (routine and breakdown maintenance performed by the
maintenance technicians involved in the proposed project.
Preventive maintenance (activities carried out at pre-determined intervals)
Predictive maintenance (as initiated by facility condition monitoring and assessment
Inspection (in accordance with a pre-defined programme and based on statutory and
company requirements)
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7.0 Environmental and Social Monitoring Plan
Contractor and the PMT shall strictly operate a monitoring programme that would lead to
sustainable project-environment relationship. This will be strengthened with the
occasional monitoring visits of the ERSU-PMU. The monitoring programme shall
commence from site preparation through implementation to operation stages in order to
keep track of the entire project activities and performance. The programme will provide
information on impacts compared with prediction and by doing so provide advance
warning of any adverse changes in both the ecosystem and socio economic
development.
7.1 The main objectives of the monitoring programme are to:
Ensure compliance with regulatory emission and discharge limits
Monitor changes in existing physico-chemical, biological and social characteristics of the
environment, compared to both the environmental baseline and predicted conditions
Ensure continual interactions and flow of information between Contractor and the
stakeholders
Determine whether any detected changes in socio- economic and environmental
components are caused by the project or by other forces
Determine the effectiveness of the control and mitigation/ enhancement measures and
provide basis for recommending additional measures
Ensure that the established transparent procedures for carrying out the proposed project
are sustained
Ensure sustenance of accountability and a sense of local ownership through out the
project lifecycle.
The programme is for the initial stages of the project. The monitoring frequency is
subject to review after the first year to determine its effectiveness and possibly include
other identified areas of concern. The ERSU-PMU shall ensure that the monitoring
programme is fully implemented.
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The Environmental monitoring programme designed for the construction and operations
phases of the project is shown in Table below.
Table 7.1: Environmental Monitoring Programme for the proposed NEGIP
Components Project Phase Impact Indicator Location
Method of monitoring
Duration/
Frequency
Biodiversity (Vegetation and wildlife)
Site preparation and operation/maintenance phases
Abundance and diversity of native plant and animal species, presence of exotic plant species
Survey and sampling within the S/S and access way corridor and within the communities along transmission route
During Site
Preparation and
yearly during
operation phase
Air Quality Site Preparation, Construction/installation and Operation Phases
CO, SOX, NH3, NOX, and HC
Sampling and measurement within the S/S
Weekly during site
preparation and
construction yearly
during operation
phase
Soil Site Preparation, construction/installation and Operation Phases
PCB, HC, Heavy metals, & Hydrocarbon utilizing Fungi and Bacteria
Sampling and testing around the transformer locations and within the switch yard
During Site
Preparation and
Twice yearly during
operation phase
Surface Water
Construction/installation and Operation Phases
pH, Cond., TDS, BOD, PCB, COD, Turbidity, Oil and Grease etc.
Sampling and in-situ testing of water from wells around the S/Ss and streams near the laboratory testing
During
construction/
installation and
yearly during
operation phase
Noise Site preparation construction/installation and operation phases
Noise Level 90 dB (A) Measurement around Substation and the adjoining host communities
Weekly during site
preparation and
construction yearly
during operation
phase
Community health
Site preparation construction/installation and operation phases
Common/prevalent diseases in the S/S & host communities
Collection of data and statistics from Clinics and Hospitals within host communities
Yearly and or when
necessary
Socio-economic indices
All phases Traffic flow, income levels, housing, trading activities, and social infrastructure
Within host communities
Twice yearly during
project phase
Employment pattern
All phases Contractors/suppliers, part/full time Employment,
Consultations with community leaders and youths in host
Yearly during
project phases
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skilled/unskilled labour recruitment
communities and review of Employment quota
Compensations/Homage
All phases Land take, accident victims, landlords/community relationship, leadership and governance
Consultations and review of MOU with host communities
During construction
phase and bi-
annually during
operation/maintena
nce
7.2 Regulatory Compliance Plan
A comprehensive checklist shall be developed in order to check every HSE-related
regulations for the proposed project including those yet to come. The specific
requirements of each of the regulators. Standards or codes shall also be clearly defined
in the checklist. Project-specific compliance shall be interpreted and documented into a
Regulatory Compliance Plan (RCP) which will be approved and then incorporated into
the routine administrative activities.
8.0 Work Safety and Occupational Health Plan
Operations within the work site shall be subject to government, industry and PHCN
Policies guidelines. All PHCN and Contractor staff shall be well informed and trained on
the HSE policies and guidelines. All facilities shall also be designed to enhance safety
planning, and activities shall be executed within the confines of relevant legislation and
stakeholders interests.
PHCN/Contractors shall provide adequate health services as well as site first aid
services for its workforce. The first aid services shall be extended to visiting personnel
and casual workers. All construction activities shall be properly managed through careful
planning and the applicable and relevant HSE policies and inclusive of the following:
8.1 Use of Permit-to-Work
Job Hazard Analysis and toolbox meetings
Use of appropriate PPE in designated areas
Prohibition to drinking of alcohol during working hours and at work sites and facilities
Prohibition to night trips
Regular emergency drills
Prohibition to smoking in fire hazards areas
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9.0 Waste Management Plan
The manner in which wastes are handled, stored and disposed is dictated by the nature
of the waste and this waste management plan takes into consideration the nature of all
wastes that will be generated during the lifetime of the proposed project.
The following objectives form the basis for the waste management plan of the project.
Progressive reduction of wastes with the target to minimize overall
emissions/discharges, which have adverse impact on the environment
To meet the environmental requirements of FMENV and other national and international
waste management as well as PHCN corporate waste management guidelines
To establish, implement and maintain waste segregation aimed at enhancing recycling
To ensure that PHCN and Contractors are responsible for effective waste handling and
disposal process, which shall be monitored by relevant waste disposal authorities
To ensure that waste management programme is in line with the provisions of the
Environmental Management Programme of ISO 14001.
The standard for the plan are binding on all staff and Contractors involved in the
proposed project with respect to the:
Emission or release of pollutant and fugitive gases
Discharge or spill of untreated liquid effluent on land and into surface water
Discharge of solid waste on land and into surface water
Generation of noise.
9.1 Waste Handling Guidelines
For proper handling and disposal, wastes shall be well defined at source and the
definition transmitted along with the wastes to the final disposal points. PHCN and
Contractors personnel shall define and document all wastes generated in the course of
work in a monthly waste stream report, which shall be used to track/monitor wastes
generated from the Substations.
Basic information that must be provided as a minimum for adequate definition of wastes
include:
9.2 Waste type identification
The major categories of wastes envisaged from the Substation Projects are outlined as
follows:
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Category/Definition
Solid wastes This include felled vegetation/trunks, woods from crates, metals, papers,
printer cartridges and other office services, domestic waste (waste generated from camp
kitchens, packing materials, boxes and plastics)
Liquid wastes This include non hazardous operational waste generated from
work construction sites e.g. lubes, lubricants, sanitary water, paints etc
Gaseous wastes This include combustion products from construction engines,
welding gas, natural gas leaks etc
Hazardous waste is any gaseous, liquid or solid, which due to quantity, physical,
chemical or infectious characteristics have the potential to harm human health,
environment when improperly handled, stored, disposed, transported or treated e.g.
acids, lead, phenols, etc.
9.3 Waste Minimization / Reduction
Waste minimization implies reduction to the greatest extent possible of the volume or
toxicity of waste materials. The four principles of waste minimization process are -
recycle, reduce, reuse and recover, shall be adopted as applicable. The key elements of
the four waste minimization/management principles practices are outlined.
Minimization Definition
Reduce Process modification / design change
Material elimination
Inventory control and management
Material substitution
Improved housekeeping
Reuse Chemical / Oil containers
Reuse waste heat
Recycle / Recover Recycle scrape materials
Recycle paper
Burn waste lubricating oil for energy recovery
Recover oil from tank bottom
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Waste Segregation
Waste segregation and characterization shall be carried out on wastes that are similar
and may be combined to simplify storage, treatment, recycling and effective
implementation of appropriate waste disposal methods. Wastes shall be segregated,
preferably at source into clearly designated bins at strategic locations. Particular
attention shall be given to the work area where a variety of wastes including fast food
packaging shall be generated. The site HSE Coordinator shall be responsible for
maintenance of the waste segregation scheme at the site.
Waste Disposal
All debris, spoil materials, and other wastes shall be cleared regularly from the site and
dispose off at approved dump sites operated by designated waste disposal authorities.
Instructions on material safety handling sheet shall be strictly adhered to and shall form
basis for the disposal of wastes related to such products. Wastes in transits shall be
accompanied and tracked by waste disposal notes. The note shall as minimum contain
such information as date of dispatch, description of wastes, waste quantity, container
type, designated disposal site and method, consignee name, means of transport and
confirmation of actual disposal time and date
Waste management audit of facilities shall be carried out in consultation with the HSE
Department of PHCN, and findings shall be properly documented and followed up.
Accommodation, catering services areas and work site shall maintain acceptable
standard of hygiene and good house keeping.
10.0 GENERAL Security Plan
The project team led by the ERSU Manager shall ensure that adequate security
arrangements are made to handle security related incidents effectively. The project
team will identify, evaluate and manage risks to personnel and property arising from
theft, malicious practices, crime, civil disorder or armed conflict.
In addition, each Contractor will be required to prepare a project security plan and
submit to PHCN for review and approval before mobilization to site. The project will also
organize a security workshop to identify, evaluate and recommend contingency plans for
all security risks.
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10.1 Journey Management Plan
PHCN and Contractor shall follow its journey management procedures strictly. Trips
shall be planned and combined to reduce driving exposures, mandatory use of seat
belts by drivers and passengers in company and Contractors vehicles shall be enforced.
All drivers shall attend defensive driving course while night driving (out of town limits)
shall be discouraged.
Each trip/journey to be undertaken during the proposed project shall be managed in
such a manner that will not result to harm to life or property. A journey management
plan specific to each trip shall be produced and submitted to the Site HSE Coordinator
for approval. The details of the journey management plan shall include proposed
mobilization date, mode of transportation, routes, type of cargo as well as the details of
the JHA conducted for the trip. The Site HSE Coordinator may only approve the trip if he
can confirm that all necessary precautions have been taken to forestall transport
accidents/incidents.
10.2 Accident/Incident Management Plan
Accidents do not just happen but are caused mainly due to human factors. They result
in pains to the victims and their families, and waste of money and resources and time to
the Company. Consequently, the main priority to PHCN shall be to prevent accidents
during mobilization, construction and operations stages of the proposed projects.
Prevention of workplace accidents during the proposed projects shall be achieved using
the JHA tool and approved work plan/instructions by supervisors.
Consequently, the technical team must conduct JHA for all HSE critical activities and
develop written and explicit work plans/instructions for such operations. The work
instructions shall integrate the recommendations of the JHA. It is only upon submission
of the written work instructions and the supporting JHA document that the Site HSE
Coordinator may consider the project activity for approval. Project activities may only be
approved if the site HSE Coordinator is objectively convinced that the Written Work
Instruction (WWI) are practicable, safe and in accordance with regulatory requirements.
The use of JHA and WWI as work management systems shall include job planning and
permitting, shift / tour handover meetings and logs, special procedures governing higher
risk activities, control of simultaneous activities, energy isolation and workplace
preparation, management controls for temporarily removing safety devices, and
reinstating the facilities and preparing to restart operations. It shall also include
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requirements for reviewing completed jobs and capturing and communicating lessons
learned about the work and management system.
Accidents shall be reported and investigated to the ERSU Manager in line with PHCN
accident reporting procedure. All personnel shall be encouraged to report all
accidents/incidents and to cooperate in the investigation of such occurrence. Staff shall
be made to know that accidents/incidents investigation are “fact finding” and not “fault
finding” exercises and are particularly useful as lessons in preventing re-occurrence.
10.3 Emergency Response Plan
The PMT and Contractors will demonstrate that all potentially significant hazards and
potential impacts of the project activities have been identified, the associated
risks evaluated and understood, and that control and recovery measures to effectively
manage these risks and impacts are in place before mobilization to site. PHCN will
assist Contractors, where necessary, with the provision of a generic hazard list for
guidance.
In case of an emergency, Contractor emergency response procedure will be activated.
Its objectives are:
To ensure no loss of life
To ensure that the environment is protected
To ensure that manpower, equipment and funds are available to effectively contain the
emergency (fire, explosion, electrocution, shocks, accident, spill clean up for
oil/chemical, etc)
In order to ensure that good record keeping is maintained and accurate information
concerning emergency are disseminated to the workers, public and government,
the under mentioned procedures cover the information and issues on the following:
Transformer shut down
Search for leakages
Isolation of supply points
Notification of authorities
Safety precaution and environmental proceedings
Repair methods and procedures
Emergency repairs
Contractor arrangement
Re-commissioning and start up
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The PMT and Contractors will identify all potential emergency situations and develop
procedures to use in such scenarios as explosions or fires, hydrocarbon/chemical spills,
weather related disasters, hostage taking, community disturbance, kidnapping, etc.
Emergency drills will be conducted to demonstrate preparedness for response and
schedule of drills and testing of emergency instruments will be prepared by
PHCN/Contractors on the proposed projects.
Every technical Contractor on the proposed projects will prepare and submit for
approval contingency plan for emergency situations and possible incidents beyond the
capability of site facilities.
10.4 Consultation Plan
This involves soliciting people’s views on proposed actions and engaging them in
dialogue. It is characterized by two way information flow, from project authorities to
people, and from people to project authorities. The overall aim of the consultation plan
for the project therefore is addressing the concerns and opinions of the stakeholders
with the ultimate view to assuring a smooth project implementation.
Consultation about these rehab/reinforcement projects have been initiated by the PMU-
ERSU to Federal Ministry of Environment, the World Bank Safeguard Team, PHCN-
TCN HQ & project sites, surrounding Communities and shall remain a continuous
process during implementation. The programme for the project construction and
operations stages include:
Visits and courtesy calls on community leaders and other stakeholders to discuss the
effectiveness of the addressed social issues on the lives of the host communities.
Direct visit to the affected populations to consider (through questionnaires, interviews
and visual observations.
Organizing large public meetings (participatory rural appraisal- PRA) to discuss public
welfare, clarify misconceptions and address new issues as regards the project.
Holding workshops and extension courses on resource management (using simply
written materials, visual representation, videos and scale models to decode technical
languages) and sensitising local people on the latest impact mitigation techniques.
Organizing public seminars aimed at identifying new ways of rendering socio-economic
assistance for the locals.
Establishing a voluntary participatory programme in the local media, television and
radio) through which NGOs, CBOs and other key stakeholders concerned and the
35
general public can comment on various aspects of the project and to ensure that all
socio-economic and environmental issues are adequately addressed.
In case of any Grievances, the affected person(s) should come to or write the CEO of
PHCN-TCN and copy the head of Substation who then will attempt to resolve any
grievance. He will liaise with the PMT in sorting out the grievance and notify the CEO
PHCN. When the CEO of PHCN-TCN cannot resolve the grievance himself, the
offended can then seek redress from any Court of Law in Nigeria.
10.5 Communication Plan
Effective two-way communication between PHCN and Contractor staff on HSE and
security issues will include awareness programmes to motivate staff and Contractors.
HSE and security information experiences will be shared between PHCN and
Contractors to facilitate improvement in HSE and security performance.
Contractor shall ensure its staff involved at all levels in the proposed projects become
familiar with the importance of compliance with the adopted HSE policy, regulatory
compliance plan, security plan and their individual roles and responsibilities in achieving
their compliance.
Each person shall be aware of his respective work activities, inherent job risks and
hazard and their controls, mitigation measures and emergency and response
procedures that have been established. They also need to be aware of potential
consequences of departure from agreed operating procedures. Consequently each
Contractors will have a project communications focal point to enhance communications
with the Contractor project team at various locations. Contractors will set up appropriate
procedures and lines of communication to handle HSE and security issues (e.g. direct
access to the nearest clinic, direct access to emergency services, etc).
Contractors should be able to communicate easily with their base offices, work site and
local PHCN in an emergency situation. Appropriate safety programmes and promotions
need to be employed in order to effectively promote HSE and create awareness e.g.
minutes of meetings, plans and performance targets, HSE performance on news board,
posters, bulletins, video, news flash, e-mail etc.
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Appropriate HSE incentive programmes should be established to promote individual
HSE performance improvements e.g. suggestion boxes, personal recognition,
observation of annual safety week, HSE performance bonus schemes etc.
11.0 Commissioning/Hand over Plan
The risks associated with the commissioning and handover phase of the Projects will be
adequately evaluated and will be covered by detailed commissioning procedures and
guidelines. The Engineering, Procurement, Installation and Commissioning (EPIC)
contract strategy will allow time for familiarity of the commissioning/operation team. This
will allow for effective supervision and carryover of priority items into the operation
phase. A pre-commissioning audit will be carried by the PMT for the proposed projects.
Specific commissioning plans covering all significant Contractor commissioning
activities, particularly control of potential dangerous operations during the
commissioning will be developed. The proposed facility will not be put into operation
unless commissioning approval is received from PMU and PHCN-TCN.
12.0 Decommissioning / Abandonment Plan
The design and facilities shall take due recognition of the need to decommission the
Transmission Substation and the ancillary facilities at the end of their operational life,
the abandonment plan shall take due note of the current national and international
legislative requirements.
The following shall be consider at the end of the project lifecycle:
Need for facilities decommissioning and notification to FMENV.
Team shall be set up to study and plan the decommissioning/abandonment programme
in a manner that meets standard requirement.
An Environmental Evaluation Report (EER) to determine if the activities carried out at
the site have caused any detrimental effects and if any, discuss mitigations and
restoration measures.
In-depth Environmental Studies for the actual removal of equipment (demolition) has to
be carried out.
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ANNEX 1
ENVIRONMENTAL INTERNAL AUDIT OF ABA 132/33 KV SUBSTATION ABA, ABIA
STATE
The Aba 132/33 KV substation is located in Aba town in Abia state with fifteen to twenty
minutes drive from the town. The access road to the substation is in a very poor state
and it is about 2-4 km. The station was commissioned in 1962 with all the equipments in
it and other associated substation facilities. This substation services Aba township,
Umuahia, Echie and every parts of Abia state except Arochukwu with power supply.
The substation has its surroundings over grown with weeds and the switch yard water
logged whenever it rains. The security of this station is poor has the fence is dilapidated.
Only very office spaces exist. Due to the age of the transformer, the oil contains PCB
and leakages exist. This is a serious environmental hazard. The access road to the
station is in a deplorable condition, the switch yard condition is very poor and not
illuminated. The cable trenches covers are broken and collapsed.
The environmental management of this station is not satisfactory and ERSU do not exist
in the substation. The environmental health safety of the staffs is poor as the staffs do
not have personal protective equipments to work with.
This ESPM is designed to address the environmental and social impacts that may arise
from the rehabilitation activities at the Aba transmission substation and as well establish
an ERSU within the substation that will supervise subsequent environmental audits of
the substation and implement the reports of same at the close of the rehabilitation
project.