The first phase of the Northern Collector Water Tunnel project is located along the eastern fringes of the Aberdare Conservation area approximately 60 kilometer north of Nairobi county.
The works are located in Kangema and Kigumo sub counties of Murang'a county
Problems caused by improper drainage systems to our environment are more. So, to decrease these problems there are some ways and methods are available. By using them we can decrease those problems.
Hello readers,
In this presentation, I am sharing Maintenance strategies & case studies.
The following parameters are discussed in the presentation:
Inspections, Estimation of deterioration levels and rates, Evaluation of performance of the structure, Remedial actions & Recordings.
In the first Assignment the students are to acquire prior knowledge, from the literature on urbanism, before the case study visit. The theme of the Semester is ‘Colonial Cities’ and the course work focuses on the cities in Malaysia such as George Town (Penang) and Malacca as the case studies. The students are to explore the various ideas/theories/social situations prevailed in the historical and contemporary times. The findings from this Assignment 1 on will be taken forward to analyze the third city, Kuala Lumpur, in the Assignment 2.
Problems caused by improper drainage systems to our environment are more. So, to decrease these problems there are some ways and methods are available. By using them we can decrease those problems.
Hello readers,
In this presentation, I am sharing Maintenance strategies & case studies.
The following parameters are discussed in the presentation:
Inspections, Estimation of deterioration levels and rates, Evaluation of performance of the structure, Remedial actions & Recordings.
In the first Assignment the students are to acquire prior knowledge, from the literature on urbanism, before the case study visit. The theme of the Semester is ‘Colonial Cities’ and the course work focuses on the cities in Malaysia such as George Town (Penang) and Malacca as the case studies. The students are to explore the various ideas/theories/social situations prevailed in the historical and contemporary times. The findings from this Assignment 1 on will be taken forward to analyze the third city, Kuala Lumpur, in the Assignment 2.
The green areas facilitate in encouraging human interaction while promoting community involvement and ownership. Local Green Spaces contribute to local identity, character of the area and sense of the place. They make an important contribution to the physical form and layout of the settlement. They may link up with other open spaces and allow views through or beyond the settlement, which are valued locally. The green areas must be aesthetically pleasing, tranquil and possess recreational value for the local communityUse of native, drought-tolerant plantings will create habitat for birds and insects, reduce water use, and aid adaptation to changing climate conditions. Planting of shady trees will reduce the urban heat island effect, creating more livable outdoor spaces. Edible landscaping is a responsible and worthwhile use of landscape space, even in the front yard. Water retention and filtering will help protect water quality.
The soft landscaping in forms of trees, lawns, hedges, flower gardens can be around public areas such as monuments, industrial areas, commercial areas, along the drains and roads.
Design engineers may work in a team along with other designers to create the drawings necessary for prototyping and production, or in the case of buildings, for construction. However, with the advent of CAD and solid modeling software, the design engineers may create the drawings themselves, or perhaps with the help of many corporate service providers.
Definitions of Urban Planning, Urban Design & ArchitectureIbtehal Ammar
Urban Planning, Urban Design & Architecture definitions with examples in Tripoli city
“I’m trying to discover – invent, I suppose an architecture, and forms of urban planning, that do something of the same things in a contemporary way. I started out of trying to create buildings that would sparkle like isolated jewels; now I want them to connect, to form a new kind of landscape, to flow together with contemporary cities and the lives of their peoples”
by ZAHA HADID
iginally a Viking fishing village founded in the 10th century then became the capital of Denmark in the early 15th century. Beginning in the 17th century it consolidated its position as a regional center of power with its institutions, defences and armed forces. After suffering from the effects of plague and fire in the 18th century, the city underwent a period of redevelopment. This included construction of the prestigious district of Frederiksstaden and founding of such cultural institutions as the Royal Theatre and the Royal Academy of Fine Arts. After further disasters in the early 19th century when Nelson attacked the Dano-Norwegian fleet and bombarded the city, rebuilding during the Danish Golden Age brought a Neoclassical look to Copenhagen's architecture. Later, following the Second World War, the Finger Plan fostered the development of housing and businesses along the five urban railway routes stretching out from the city centre.
Copenhagen – a pioneer in sustainable urban development
Urban planners are Steen Eiler Rasmussen ,Christian Erhardt “Peter” Bredsdorff and Jan Gehl.
In 2014, Copenhagen won the prestigious European Green Capital award, presented by the European Commission, which recognizes efforts to improve the urban environment, the economy and the quality of life. The city was chosen as “a good model in terms of urban planning and design” and especially for its work as a “transport pioneer.”
Copenhagen is recognized as one of the most environmentally friendly cities in the world
Commercial and residential buildings are to reduce electricity consumption by 20 percent and 10 percent respectively
Copenhagen has ranked high in international surveys for its quality of life.
Park Acreage: 6,143
Park acreage per 1000 residents: 1.2 Acres
Copenhagen reacted with a Climate Adaptation Plan to improve the city’s defenses against water and extreme weather. Among the actions being taken are the building of dikes and better management of storm water.
DRINKING WATER SUPPLY SCHEMES FOR SOLAPUR TOWN DEVELOPMENT, PROBLEMS & FUTUR...SHRINIVAS VADAGBALKAR
Attempts are made to take a total review of various water supply schemes implemented for Solapur citizens since last 125 years. Detail studies are carried out to give the management practices and plans for growing population in future.
construction activities are increasing day by day in different regions and it requires many natural resoures.
stone dust is one of the alternative forconstruction and used as patrial replacement of natural sand.
conduct investigations for M20 grade concrete and done the water absorption test on concrete.
The green areas facilitate in encouraging human interaction while promoting community involvement and ownership. Local Green Spaces contribute to local identity, character of the area and sense of the place. They make an important contribution to the physical form and layout of the settlement. They may link up with other open spaces and allow views through or beyond the settlement, which are valued locally. The green areas must be aesthetically pleasing, tranquil and possess recreational value for the local communityUse of native, drought-tolerant plantings will create habitat for birds and insects, reduce water use, and aid adaptation to changing climate conditions. Planting of shady trees will reduce the urban heat island effect, creating more livable outdoor spaces. Edible landscaping is a responsible and worthwhile use of landscape space, even in the front yard. Water retention and filtering will help protect water quality.
The soft landscaping in forms of trees, lawns, hedges, flower gardens can be around public areas such as monuments, industrial areas, commercial areas, along the drains and roads.
Design engineers may work in a team along with other designers to create the drawings necessary for prototyping and production, or in the case of buildings, for construction. However, with the advent of CAD and solid modeling software, the design engineers may create the drawings themselves, or perhaps with the help of many corporate service providers.
Definitions of Urban Planning, Urban Design & ArchitectureIbtehal Ammar
Urban Planning, Urban Design & Architecture definitions with examples in Tripoli city
“I’m trying to discover – invent, I suppose an architecture, and forms of urban planning, that do something of the same things in a contemporary way. I started out of trying to create buildings that would sparkle like isolated jewels; now I want them to connect, to form a new kind of landscape, to flow together with contemporary cities and the lives of their peoples”
by ZAHA HADID
iginally a Viking fishing village founded in the 10th century then became the capital of Denmark in the early 15th century. Beginning in the 17th century it consolidated its position as a regional center of power with its institutions, defences and armed forces. After suffering from the effects of plague and fire in the 18th century, the city underwent a period of redevelopment. This included construction of the prestigious district of Frederiksstaden and founding of such cultural institutions as the Royal Theatre and the Royal Academy of Fine Arts. After further disasters in the early 19th century when Nelson attacked the Dano-Norwegian fleet and bombarded the city, rebuilding during the Danish Golden Age brought a Neoclassical look to Copenhagen's architecture. Later, following the Second World War, the Finger Plan fostered the development of housing and businesses along the five urban railway routes stretching out from the city centre.
Copenhagen – a pioneer in sustainable urban development
Urban planners are Steen Eiler Rasmussen ,Christian Erhardt “Peter” Bredsdorff and Jan Gehl.
In 2014, Copenhagen won the prestigious European Green Capital award, presented by the European Commission, which recognizes efforts to improve the urban environment, the economy and the quality of life. The city was chosen as “a good model in terms of urban planning and design” and especially for its work as a “transport pioneer.”
Copenhagen is recognized as one of the most environmentally friendly cities in the world
Commercial and residential buildings are to reduce electricity consumption by 20 percent and 10 percent respectively
Copenhagen has ranked high in international surveys for its quality of life.
Park Acreage: 6,143
Park acreage per 1000 residents: 1.2 Acres
Copenhagen reacted with a Climate Adaptation Plan to improve the city’s defenses against water and extreme weather. Among the actions being taken are the building of dikes and better management of storm water.
DRINKING WATER SUPPLY SCHEMES FOR SOLAPUR TOWN DEVELOPMENT, PROBLEMS & FUTUR...SHRINIVAS VADAGBALKAR
Attempts are made to take a total review of various water supply schemes implemented for Solapur citizens since last 125 years. Detail studies are carried out to give the management practices and plans for growing population in future.
construction activities are increasing day by day in different regions and it requires many natural resoures.
stone dust is one of the alternative forconstruction and used as patrial replacement of natural sand.
conduct investigations for M20 grade concrete and done the water absorption test on concrete.
This is one of the biggest drinking water project of Nepal for Kathmandu valley. We have included the brief description of all the updates that have been done, so far in this project along with how the project is funded. It also includes the recent photographs and maps of reservoir and tunnel showing the progress of the projects.
Water resources planning: Stages in water resources planning, data collection and processing, estimation of future water demands, preliminary planning, institutional set-up, public involvement, formulation and screening of alternatives, models for water resources planning, sensitivity analysis, Environmental and social considerations: Water in environment, environmental impact of water resources projects, environmental impact of reservoirs, environmental problems in command areas.
Field visit report of Moragahakanda reservoir project Deshan Arachchige
this report contain description about project and construction process,all information are gathered during visit by Kotelawela Defence University and literature.
Here is a list of top 100 candidates in the just released KCSE exam. The list was released by the Kenya National Examinations Council on Friday, December 21, 2018.
This is a gazette notice listing the names of women feted as trailblazers. The names of those appointed to various parastatals have also been featured.
The exit report by the National Police Service Commission highlighting gains and losses of the commission since its creation under the new Constitution.
Willie Nelson Net Worth: A Journey Through Music, Movies, and Business Venturesgreendigital
Willie Nelson is a name that resonates within the world of music and entertainment. Known for his unique voice, and masterful guitar skills. and an extraordinary career spanning several decades. Nelson has become a legend in the country music scene. But, his influence extends far beyond the realm of music. with ventures in acting, writing, activism, and business. This comprehensive article delves into Willie Nelson net worth. exploring the various facets of his career that have contributed to his large fortune.
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Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
Nelson's initial foray into the music industry was fraught with challenges. He moved to Nashville, Tennessee, to pursue his dreams, but success did not come . Working as a songwriter, Nelson penned hits for other artists. which helped him gain a foothold in the competitive music scene. His songwriting skills contributed to his early earnings. laying the foundation for his net worth.
Rise to Stardom
Breakthrough Albums
The 1970s marked a turning point in Willie Nelson's career. His albums "Shotgun Willie" (1973), "Red Headed Stranger" (1975). and "Stardust" (1978) received critical acclaim and commercial success. These albums not only solidified his position in the country music genre. but also introduced his music to a broader audience. The success of these albums played a crucial role in boosting Willie Nelson net worth.
Iconic Songs
Willie Nelson net worth is also attributed to his extensive catalog of hit songs. Tracks like "Blue Eyes Crying in the Rain," "On the Road Again," and "Always on My Mind" have become timeless classics. These songs have not only earned Nelson large royalties but have also ensured his continued relevance in the music industry.
Acting and Film Career
Hollywood Ventures
In addition to his music career, Willie Nelson has also made a mark in Hollywood. His distinctive personality and on-screen presence have landed him roles in several films and television shows. Notable appearances include roles in "The Electric Horseman" (1979), "Honeysuckle Rose" (1980), and "Barbarosa" (1982). These acting gigs have added a significant amount to Willie Nelson net worth.
Television Appearances
Nelson's char
WRI’s brand new “Food Service Playbook for Promoting Sustainable Food Choices” gives food service operators the very latest strategies for creating dining environments that empower consumers to choose sustainable, plant-rich dishes. This research builds off our first guide for food service, now with industry experience and insights from nearly 350 academic trials.
Natural farming @ Dr. Siddhartha S. Jena.pptxsidjena70
A brief about organic farming/ Natural farming/ Zero budget natural farming/ Subash Palekar Natural farming which keeps us and environment safe and healthy. Next gen Agricultural practices of chemical free farming.
UNDERSTANDING WHAT GREEN WASHING IS!.pdfJulietMogola
Many companies today use green washing to lure the public into thinking they are conserving the environment but in real sense they are doing more harm. There have been such several cases from very big companies here in Kenya and also globally. This ranges from various sectors from manufacturing and goes to consumer products. Educating people on greenwashing will enable people to make better choices based on their analysis and not on what they see on marketing sites.
Characterization and the Kinetics of drying at the drying oven and with micro...Open Access Research Paper
The objective of this work is to contribute to valorization de Nephelium lappaceum by the characterization of kinetics of drying of seeds of Nephelium lappaceum. The seeds were dehydrated until a constant mass respectively in a drying oven and a microwawe oven. The temperatures and the powers of drying are respectively: 50, 60 and 70°C and 140, 280 and 420 W. The results show that the curves of drying of seeds of Nephelium lappaceum do not present a phase of constant kinetics. The coefficients of diffusion vary between 2.09.10-8 to 2.98. 10-8m-2/s in the interval of 50°C at 70°C and between 4.83×10-07 at 9.04×10-07 m-8/s for the powers going of 140 W with 420 W the relation between Arrhenius and a value of energy of activation of 16.49 kJ. mol-1 expressed the effect of the temperature on effective diffusivity.
Artificial Reefs by Kuddle Life Foundation - May 2024punit537210
Situated in Pondicherry, India, Kuddle Life Foundation is a charitable, non-profit and non-governmental organization (NGO) dedicated to improving the living standards of coastal communities and simultaneously placing a strong emphasis on the protection of marine ecosystems.
One of the key areas we work in is Artificial Reefs. This presentation captures our journey so far and our learnings. We hope you get as excited about marine conservation and artificial reefs as we are.
Please visit our website: https://kuddlelife.org
Our Instagram channel:
@kuddlelifefoundation
Our Linkedin Page:
https://www.linkedin.com/company/kuddlelifefoundation/
and write to us if you have any questions:
info@kuddlelife.org
2. Nairobi City is the international, regional, administrative and economic
hub for Kenya. The city generates approximately 60% GDP. Nairobi,
the capital of Republic of Kenya, is facing chronic water shortage
including its surrounding area. This is because the proposed additional
water source, the Northern Collector Scheme, was not implemented as
proposed in 1998. The scheme was initially planned as part of Third
Nairobi Water Supply Project. The target year for implementation
of the Northern Collector Phase 1 was year 2010. The expected
average production capacity of the now proposed Northern Collector
tunnel Phase 1 project is 1.6m3/sec (140,000m3/day) with an 84%
reliability. The safe yield at Ndakaini dam will however be 1.24m3/
day with a 90% reliability.
The present water deficit in Nairobi City is 125,000m3/day. In line with
the National Development Plan, Vision 2030, the Government of Kenya
has prioritized improvement of water services in Nairobi City and the
surrounding areas. To achieve this objectives the Northern Collector
Tunnel Phase 1 project is a priority project.
A number of studies have been carried out on the Northern
Collector System, which have involved detailed data
collection and analysis to assess its viability.
The initial studies are documented in Feasibility Reports
of 1998, carried out by M/S Howard Humphreys and
Partners Ltd under the Third Nairobi Water Supply
Project. The 1998 report investigated to greater detail
the technical and economic viability of the Northern
Collector Scheme as a source of water after Ndakaini
Dam. The report recommended implementation of the
Northern Water Collector Tunnel Phase 1 project by the
year 2010. Due to funding challenges the project was not
implemented as planned.
In the year 2012, Athi Water Services Board through
Egis/MIBP JV carried out the Feasibility Study and Master
Plan for Developing New Water Sources for Nairobi and
Satellite Towns. This study validated the 1998 report and
further recommended implementation of the Northern
Collector Tunnel project.
Additional hydrological reviews for the project were
undertaken by M/s GIBB Africa as part of the ESIA Study
process further validating the hydrological and ecological
viability of the project.
BACKGROUND
FEASIBILITY AND VALIDATION OF 1998
PROJECT PROPOSAL
2
1
3. The NCT 1 project is located along the eastern fringes of the Aberdare
Conservation Area approximately 60 km North of Nairobi City. The
works are located in Kangema and Kigumo Sub-Counties of Muranga
County.
The project involves:
• Construction of river intake structures at Maragua, Gikie and Irati
rivers
• Construction of access adits at Gikigie, Irati and Kaanja;
• Construction of 11km long, 3.0 diameter main water tunnel from
Maragua intake to Githika outfall. The tunnel will be fully concrete
lined. A valuation roll completed in December 2015 indicate that
221 people currently live on top of the tunnel.
The other program components involve:
• Construction of high level Water Treatment Plant at Kigoro and the
water transmission pipelines to Nairobi City of capacity of
140,000m3/day
• Construction of Muranga and Kiambu County community water
supply projects to ensure water supply to host communities is also
improved.
• Construction of Nairobi city water distribution network to ensure
equitable distribution.
• Improvement of water services in Nairobi Satellite towns within
Kiambu and Kajiado Counties.
PROJECT DEFINITION AND SCOPE
3
View of Project Area
Viewofprojectare a
4. The detailed design for the Northern Collector
Water Transfer Project phase 1, has considered all
findings of the hydrological and ecological studies
to ensure that the project shall neither result in low
river flows nor divert water during low river flow
seasons. The flows used for the design are such that
the environmental and ecological requirements as
defined by Trout Fish habitat, downstream water
rights and compensation flow as a whole are
guaranteed.
The river flow data for the previous 40 years for
each of the rivers was obtained and analysed in
the hydrological study. The ecological requirements
have been defined following analysis of ecological
evidence for all flora and fauna including Trout
fish. The reserve flows for the three rivers have
therefore not only been defined as per the
Water Resource Management Authority (WRMA)
guidelines but also the findings of these analytical
studies. Cumulatively the reserve flows for the
three rivers adopted for design is 141,696.00
m3/day against the WRMA standard definition of
93,744.00 m3/day.
The design of the intake structures is such that an
unregulated compensation flow channel is provided
for at an invert level lower than the tunnel invert
level to ensure water only gets into the tunnel after
the reserve flows for current/future downstream
users and river environmental flows has been
released. That means the NCT will not have impact
on the frequency of rivers experiencing low flow
conditions or drying up, because before these
conditions occur, the abstraction will automatically
stop because water will only flow through the
unregulated compensation flow channel into the
river and not into the tunnel which is at a higher
level. Certainly as per the design they will be
absolutely no abstraction during low river flows.
ENVIRONMENTAL AND SOCIAL IMPACT
4
A consultative environmental and social impact assessment for the project was undertaken. The ESIA
study report defined the probable project impacts and mitigation measures. A detailed Environmental
Management Plan has been developed and a Monitoring plan drawn. Modalities of ensuring compliance
with the Environmental Management Plan have been put in place. Notable areas include:-
Water Flows in Rivers Maragua, Gikigie and Irati
5. In the calculation of downstream water needs, the abstraction
capacities of all existing downstream consumptive demands
which include domestic, industrial, irrigation and other
miscellaneous abstractors which are distributed along the
river profiles were taken as occurring at the proposed NCT1
intakes. Details of the existing and planned water abstraction
capacities, including information on current irrigation and
hydro-power projects within the river systems, were obtained
from WRMA offices and abstraction licences, Water Service
Providers in Murang’a County as well as design reports
obtained from Tana Water Services Board (TWSB). A minimum
factor of safety of 1.2 was then used in carrying out the water
balance analysis.
Although Section 32 (2) of the Kenyan Water Act, 2002
states that “the use of water for domestic purposes shall take
precedence over the use of water for any other purpose…”
the potential impact of the project on existing hydro-power
generation schemes was also studied. The cumulative impacts of
the project on existing hydro power generation was found to be
a reduction of 2.32% of the Mean Annual Inflow to Masinga
reservoir.
Proposed Access Road to Outfall portal site
Downstream water rights and Future demand
Kaanja Adit Portal
Irati Intake & Shaft
Irati River
Thika River
Thika Dam
Gikigie Intake/Access Adit
Gikigie River
Maragua Intake
Maragua River
Figure
2:
Diagram
showing
the
project
schematic
Makomboki Outfall
6. DRYWEATHERFLOW WETWEATHERFLOW
Maraguariverfacingdownstreamfromthebridge Maraguariverview
Iratiriverview(pipesubmerged)Iratiriverviewupstreamfrombridge
As per the design philosophy of the intake
structures explained in (a) above it’s clear
that the Northern Collector Tunnel Project will
mostly abstract flood waters. This will help in
mitigating the negative impacts of flooding
downstream and related landslides.
To ensure that positive impacts such as
irrigation and storage reservoirs downstream
and other water uses during heavy rains
are not jeopardized, the Northern Collector
Tunnel Phase 1 project design has been
restricted to cumulatively abstract only
43% of the maximum flood waters leaving
57% available for investments in storage
infrastructure. From drainage patterns, the
average maximum flood water at the three
rivers abstraction points is 1,198,368m3/
day, NCT1 will abstract 513,388 m3/
day. Since existing and known plans for
future irrigation schemes were considered in
defining the compensation flows, this covers
any other future and unknown possible
abstraction. Further, the balance of flood
passed downstream of the weirs of about
684,980 m3/day is expected to increase
downstream due to increase in water shed
areas.
Abstraction of Flood waters
In addition to ensuring sufficient water requirements for the aquatic
flora and fauna, the river structures have been designed to ensure
free migration of the evidenced trout fish in all the three rivers.
Fish ladders and fish passes have been provided for and sized
accordingly.
Sustainability of Aquatic Life
7. To ensure there are no effects to ground water sources, a
fully lined tunnel will be constructed. This will ensure there’s no
infiltration of underground water into the tunnel or exfiltration out
of the tunnel. During construction contact grouting will be done to
the outside rock to ensure structural integrity and to avoid flow of
groundwater from an aquifer into and around the outside of the
tunnel.
Although the tunnel is ultimately not expected to have any
impacts on ground and surface water resources, Athi Water
Services Board (AWSB) has undertaken a baseline study of the
resources on top of the tunnel and surrounding the tunnel corridor.
The baseline survey report is available in our website at http://
awsboard.go.ke/2016/01/06/baseline-survey-for-wells-and-
boreholes-along-the-nct-1-corridor. AWSB will monitor these
water resources during and after construction. Should there be
any negative impact on these water resources during construction
while the lining and grouting is still ongoing, AWSB will supply
all impacted people with water free of charge. Should there be
any unexpected negative impact on these water resources after
construction, AWSB would implement alternative water supply
schemes for all impacted people. The water resource monitoring
results will be made available to Muranga County and the
public. A valuation roll completed in December 2015 indicate
that 221 people currently live on top of the tunnel.
Water resource management and environmental conservation
are the mandate of the Water Resource Management
Authority (WRMA) and Water Resource User Associations
(WRUAs). AWSB as a user department, is however very
keen on environmental conservation. As such AWSB has been
assisting the Chania WRUA in following up on the proposal
for Lower Chania Catchment Protection to ensure it’s submitted
to World Bank through WRMA for financing under the Water
Security and Climate Resilience Project.
In consultation with the Water Resources Management
Authority, Maragua WRUA and Murang’a County Government
AWSB will support Upper Maragua WRUA in the updating of
the Maragua Sub-Catchment Management Strategy.
AWSB is and will also continue to support and be involved in
tree planting together with Water Resource User Associations.
It should be noted that no deforestation will carried out in
order to pave way for the tunnel construction.
In addition, AWSB has committed to undertake an integrated
water masterplan for Muranga County.
Ground Water aquifers and surface water resources Environmental sustainability and Catchment Protection
8. Social Considerations
As part of the Northern Collector Tunnel Phase 1 project, the GOK through Athi Water will undertake the following
activities that will improve the living standards and increase water supply to communities along the tunnel and its
surrounding:
• Purchase an Ambulance for Gikoe dispensary to be used by the project and the surrounding communities along
the tunnel
• Give priority for employment in the Project to people from Murang’a County.
• Construct permanent residency for the supervision team in Kinyona, Gikoe and Mununga which will revert to the
Muranga County government
• Ensure excavated material that is not utilized by the project will be committed for use by Muranga County
government
• Ensure roads are maintained during construction
• Engage Muranga University in project activities like geotechnical investigation and supervision of specialized
works.
9. Host Community Benefit Projects in Muranga County
No Project Name Scope and Target Areas Status Status
1. Muranga Bulk Water
Supply
(undertaken by
TWSB)
Laid 81Km water pipelines, Constructed 11000m3/day water tworks and 2000m3/day
concrete tank, Augmented sewerage system in Muranga town to serve 189,000 persons in
Muranga South and Muranga Town. The system is designed/ expected to serve 417,000
persons by 2030.
Completed Kshs
1.6 Billion
2. Muranga Community
Water Project
Construction of two 4000m3/day water treatment units and laying of 147Km water pipe-
lines to improve water supply service from 10hrs to 24hrs to 400,000 people by 2030 in
Kandara, Kigumo, Kangema, Kiharu, and Maragua constituencies of Muranga County.
Works are
85% done.
Completion in
April 2016
Kshs 749
million
3. Gatanga Community
water project
Construct intakes along the Kiama and Kimakia rivers, 2 No. 3000 m3/day water treatment
plant and lay 35km pipelines boosting water supply from 6hrs to 16hrs to 70,000 people in
the lower areas of Kiunyu and Gatunyu areas of Gatanga Constituency.
Works at 70%
done. Comple-
tion in March
2016
Kshs 264
million
4. Gatango water
project
construction of intake works, 30km water mainlines and 4 no storage tanks to improve water
supply to 140,000 people in Gaturi and Kamacharia wards
Tender docu-
mentation
Kshs 170
million
5 Ithanga Water
Project
Construction of river intake weir on Thika river, 47Km water mains, 6000m3/day water treat-
ment plant to improve supply in Ithanga
Awaiting sign-
ing of FC
Kshs 1.4
Billion
6 Gatagwagwa stor-
age tank
Construction of 225m3 clear water storage tank to complement gatagwagwa community
water project
Completion in
April 2016
Kshs 3.3
Million
7 Gikoe Community Dis-
pensary
Improvement of Gikoe dispensary and purchase of an ambulance to serve people from
Kigumo constituency and surrounding areas.
Ongoing.
Completion in
March 2016
Part of
NCT1
works
8 Ichichi, Kiruri and
Makomboki
Rehabilitation of 3 intake weirs, construction of 225m3 storage tanks, water pipeline exten-
sion to serve approximately 50,000 people in Gitwe-Kanderendu in Kugumo upstream of
Thika Dam, Makomboki, Ichichi/Githaini, Karurumo and Kiruri communities along the tunnel.
Design Stage Kshs 170
Million
10. No Project Name Scope and Target Areas Status Cost
1 Independent Mataara and Komothai Water
Production Plants
Construction of 32,000m3/day 5No. water
treatment plants to benefits 128,000 people
in Karimenu, Karure, Ndarugu/Gatundu South
Operational Kshs 800 Million
2 Improvement of community water supply
schemes
Drilling and Equipping of 15 No. boreholes to
serve 1000 people in Kiambu, Thika, Limuru
and Kikuyu
Completion in
March 2016
Kshs 200 Million
3 Kiambu Water Supply Works (Wassip AF) Construct intakes along the Kiama and Kima-
kia rivers, 2 No. 3000 m3/day water treat-
ment plant and lay 35km pipelines boosting
water supply from 6hrs to 16hrs to 70,000
people in the lower areas of Kiunyu and Ga-
tunyu areas of Gatanga Constituency.
Works at 70%
done. Comple-
tion in March
2016
Kshs 264 million
4 Ruiru Water Supply Project: Works 60% done. Completion in April 2016 Kshs 530Million Kshs 170 million
Construct 13,000m3/d WTP, River Intake weir
of 4000m3/day, transmission Pipelines and
5,000m3 Tank to benefit 68,000 residents of
Ruiru and Juja Towns
Main works operational. Tank to be complete
in February 2016
Kshs 970Million Kshs 1.4 Billion
5 Tigoni, Githunguri and Komothai Water Sup-
ply Schemes
Construction of 1000m3/day treatment
plant, laying of 145km pipeline to benefit
10,000 people in Tigoni and Githunguri
areas
Completion in
March 2017
Kshs 300 million
6 Jacaranda-Githurai Water Supply Project Construction of 135km water mains to
improve water supply to 188,000 people
in ruiru, Githurai 45, part of Mwiki and
Mwihoko
Advance
procurement
of consultant
ongoing
Kshs 1.3 Billion
Host Community Benefit Projects in Kiambu County
11. Following completion of the detailed designs and obtaining the
necessary regulatory approvals, implementation of the Northern
Collector Tunnel Phase 1 project commenced on 24th February 2015.
To facilitate speedy implementation an implementation framework
has been prepared for the project to ensure continued consultations
with stakeholders, quality assurance, continuous technical and
environmental soundness and that the project does not result in
adverse environmental effects.
PROJECT IMPLEMENTATION
6
The Ministry of Water and Irrigation is establishing a project steering
committee comprising representatives from National and County
governments to oversee the implementation of the project. In addition,
Athi Water Services Board is currently supporting the recruitment of a
high level Independent Panel of experts comprising of tunnel expert,
geotechnical expert, hydraulic/hydrology expert, dam expert, community
water supplies expert and an environment/ecological expert. Selection of
the independent panel of experts will be coordinated by the Kenya Water
Services Regulatory Board (WASREB). The selection panel will constitute
independent relevant professionals from the Institute of Engineers of Kenya,
the Geological Society of Kenya, the Hydrological Society of Kenya and
the Environment Institute of Kenya. This panel will play an independent
advisory role to the project steering committee on project implementation
modalities.
The Northern Collector Water Transfer Tunnel Phase 1 is the first inter-basin
water transfer project following the enactment of the new constitution and
formulation of county governments. It is considered that there’s potential for
future additional benefit sharing between the County of origin, Muranga
County, and the water receiving county, Nairobi City, once the country
has established a legal framework for inter-county water transfers. More
information on the 4th Nairobi water supply program and the Northern
collector tunnel Phase 1 project can be obtained from our website:
www.awsboard.go.ke
12. www.awsboard.go.ke
Our Contacts
3rd Floor, Africa Re Centre, Hospital Rd-Upper Hill,
P.O. Box 45283-00100, Nairobi, Kenya
Tel: +254-20-274292/3, +254-20-2727439-42
GSM: +254-715-688 272
Email: Info@awsboard.go.ke