architecture detailed design project description
TRANSCRIPT
Architecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page i
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
PROTOTYPE DESIGN FOR A PHARMACEUTICAL INTERMEDIATE WAREHOUSE
ARCHITECTURE DETAILED DESIGN PROJECT DESCRIPTION
TABLE OF CONTENTS TABLE OF CONTENTS ................................................................................................................................. i 1 INTRODUCTION ...................................................................................................................................1 1.1 Background ........................................................................................................................................ 1 1.2 Project description.............................................................................................................................. 2 1.3 Assumptions and site característics for the Pharmaceutical Warehouses............................................ 2 1.3.1 Introduction ................................................................................................................................... 2 1.3.2 Site característics .......................................................................................................................... 3 1.3.3 Infrastructures ............................................................................................................................... 3 1.4 Storage assumptions.......................................................................................................................... 4 1.4.1 Warehouse capacity ...................................................................................................................... 4 1.4.2 Pharmaceutical Supplies ............................................................................................................... 4 1.4.3 Dry Ice Manufacturing and Storage for the Laboratory ................................................................... 4 1.4.4 Quality control and Laboratory tests .............................................................................................. 4 1.4.5 Inceneration of Pharmaceutical products ....................................................................................... 4 1.4.6 Mosquito net warehouse ............................................................................................................... 4 1.4.7 Insecticides warehouse ................................................................................................................. 5 1.4.8 Pharmaceutical Warehouse........................................................................................................... 5 1.4.9 Cold storage (PAV, Laboratory and Refrigerated Pharmaceuticals) ............................................... 6 1.4.10 Human Resources ........................................................................................................................ 8 1.4.11 Logístics flowchart ......................................................................................................................... 8 1.4.12 Warehouse flowchart ..................................................................................................................... 8 2 PHARMACEUTICAL INTERMEDIATE WAREHOUSE ...........................................................................9 2.1 Masterplan ......................................................................................................................................... 9 2.2 Pharmaceutical Warehouse Ground Floor ........................................................................................ 10 2.3 Pharmaceutical Warehouse First Floor ............................................................................................. 11 2.4 Warehouse capacity ......................................................................................................................... 12 2.5 Construction options and solutions ................................................................................................... 13 3 RESPONSIBILITIES AND OBLIGATIONS ........................................................................................... 15 4 ATTACHEMENTS ............................................................................................................................... 17 4.1 Attachement 1 – Finishing Schedule................................................................................................. 17 4.2 Attachement 2 – Brochures .............................................................................................................. 19 4.3 Attachment 3 – Paint Scheme .......................................................................................................... 21
Architecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page ii
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
TABLE OF PICTURES
Picture 1 – Pallet racks ................................................................................................................................ 5
Picture 2 – Rack detail for pallets with shelves ............................................................................................. 5
Picture 3 – Mezanine storage ....................................................................................................................... 5
Picture 4 – Vertical Frezzer .......................................................................................................................... 7
Picture 5 – Horizontal Frezzer ...................................................................................................................... 7
Picture 6 – Small Container .......................................................................................................................... 7
Picture 7 – Large Container.......................................................................................................................... 7
Picture 8 – Logistics Flowchart ..................................................................................................................... 8
Picture 9 – Warehouse Flowchart ................................................................................................................. 8
Picture 10 – General Roof plan .................................................................................................................... 9
Picture 11 - Masterplanr ............................................................................................................................. 10
Picture 12 – 300 pallets Warehouse Ground Floor Plan .............................................................................. 11
Picture 13 - 300 pallets Warehouse Fisrt Floor Plan ................................................................................... 12
TABLE OF TABLES
Table 1 – Intermediate Warehouse potential locations .................................................................................. 2
Table 2 – Cold storage capacity ................................................................................................................... 6
Table 3 – Vacins cold storage capacity......................................................................................................... 6
Table 4 – Laboratory Cold Storage Capacity ................................................................................................ 7
Table 5 – Refrigerated cold storage capacity ................................................................................................ 7
Table 6 – Human resources per Warehouse ................................................................................................ 8
Table 7 – Warehouses effective capacity ................................................................................................... 12
Table 8 – Warehouses constructive soluctions ........................................................................................... 15
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 1
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
PROTOTYPE DESIGN FOR A PHARMACEUTICAL INTERMEDIATE WAREHOUSE
ARCHITECTURE DETAILED DESIGN PROJECT DESCRIPTION
1 INTRODUCTION
1.1 Background
In 2008, the GRM through MISAU conducted a warehousing and distribution needs assessment. The
assessment found that MISAU was spending substantial sums annually to rent centrally managed
warehouses nation-wide. It also recognized that limited capacity and poor physical conditions of most
existing provincial and district warehouses were unsuitable for establishing an adequate nationwide supply
chain system.
As a result of this assessment, in 2013 MISAU drafted the Pharmaceutical Logistics Strategic Plan (PELF),
which covers the policy, infrastructure, supply chain, and financial needs to achieve sustainable commodity
security improvements. USAID seeks to align its support with the PELF. It is currently supporting the
Nampula regional pharmaceutical warehouse design and construction project. Given the poor warehouse
infrastructure and large US Government investments in health commodities, an intermediate warehouse
prototype design will enable MISAU/CMAM to achieve their PELF objectives through establishing a
nationwide pharmaceutical warehousing network.
The PELF suggested that the national health services supply network should adopt a regional/intermediate
distribution model in place of the present national/provincial/district structure. In this proposed structure,
MISAU would rely on three regional warehouses in Nampula, Beira and Maputo (Zimpeto). The study
concluded that:
• The Zimpeto national warehouse must be expanded to serve the southern region;
• Two new warehouses are needed to serve the central (Beira) and northern regions (Nampula); and,
Between 15 to 25 intermediate warehouses are planned to be built throughout the country, located
inter-districts or provinces as suitable), in the most sustainable network to support nationwide health
services.
According to the PELF, the number and locations will be subject to a study, considering the health units’
network, population, and access roads. Based on the approved PELF, the intermediary pharmaceutical
warehouses are responsible for:
• Receiving bulk or pre-packaged products sent from regional warehouses/central level
• Receiving medicines kits
• Storing bulk products (traditional method);
• Executing the distribution plan for pre-packaged products to health units;
• Analyzing orders and distributing bulk medicines (traditional method) requested by health units;
• Organizing (scheduling) transport to health units’ warehouses;
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 2
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
• Collecting and analyzing consumption data and reporting to CMAM head office and the regional
warehouse.
According to the PELF, the National Health Services (Serviço Nacional de Saúde) comprise 1,392 health
care centers to be serviced by the logistic system. The proposed PELF supply chain will reduce the
provincial and district warehouses to a single level, an“intermediate” level. Pharmaceutical products will be
shipped from a) ports / airports to the three regional warehouses; b) from the regional warehouses to the
intermediate warehouse; and c) from the intermediate warehouse to the health units.
1.2 Project description
The Prototype Deisgn for the Intermediate Warehouses will be used to build approximately thirty (30)
Pharmaceutical Warehouses throughout Mozambique according to the table below.
It is intended a modular prototype project with a potential growth, with a base capacity of at least 300 pallets,
for an average of 600 pallets and a maximum of 1200 pallets.
Location Warehouse Capacity Location Warehouse Capacity
Maputo Province Sofala Province Maputo City 600 pallets Beira City 1.200 pallets Maputo Municipality 300 pallets Caia 1.200 pallets Matola 1.200 pallets Chibabava 300 pallets Manhiça 300 pallets Zambézia Province Matutuine 300 pallets Quelimane 1.200 pallets
Gaza Province Ilé 600 pallets Chokwé (Chihaquelane) 600 pallets Mocuba 600 pallets Xai-Xai 300 pallets Mopeia 600 pallets
Inhambane Province Nampula Province Inhambane 1.200 pallets Nampula 600 pallets Guvuro (Vilanculos) 600 pallets Nacala 300 pallets
Manica Province Niassa Province Machaze 600 pallets Lichinga 1.200 pallets Chimoio 600 pallets Malema (Cuamba) 600 pallets Catandica 600 pallets Cabo Delgado Province
Tete Province Pemba 300 pallets Tete 1.200 pallets Montepuez 1.200 pallets Ulongué 1.200 pallets Mocímboa da Praia 300 pallets Fingoé 1.200 pallets
Table 1 – Intermediate Warehouse potential locations
1.3 Assumptions and site característics for the Pharmaceutical Warehouses
1.3.1 Introduction
The development of this project has the goal to guideline the development of the projects mentioned above, where it presents assumptions and recommendations to consultants and contractors who will have to implement these warehouses at a national level.
In this way, it is made a number of assumptions and recommendations and are presented to basic infrastructures that the lands should have to the recommendation from the various services that this complex should have, how it must be implemented and what were the variables used to obtain this standards.
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 3
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
1.3.2 Site característics
1.3.2.1 Dimensions
The site for the Intermediary Warehouses must be topographicly flat in a urban context favorable to the infrastructure facilities. Due to their accessibility needs, number of buildings and little mobility of the heavy vehicles that will attend this infrastructure (trucks of 40 feet) it is recommended that the sites must be orthogonal and with dimensions close to 125 meters of depth by 90 meters of width.
All the buildings must have a minimum buffer zone from the perimeter boundaries of 5 meters.
1.3.2.2 Site Slopes
The Intermediate Deposits must have a regular and topographicaly flat site. In case of a slight slope, the entrance of the site must be the lowest point to make the water drainage easier to the streets and potential municipal infrastructures.
1.3.2.3 Locations
The sites for the Intermediate Warehouses must be located in urbanized areas with low housing density, access to infrastructure such as electricity, water and good road access for the type of vehicles that transport this type of products.
1.3.3 Infrastructures
1.3.3.1 Water supply
It is not considered a water supply from the public network for the Intermediate Warehouses. It is considered the possibility of making two water holes to capture fresh water. In case of water supply from the public network and after checking if there is a good network pressure, this item must be adapted to the new reality but not removing the water tanks, only reformulating the fresh water source, reducing the works costs.
1.3.3.2 Sewage
In the assumptions of the Intermediate Warehouses, it was not considered the connection of the internal sewage network to the public network. If this exists and is in good condition, it is recommended that instead of making the cesspits described in the project, it must be connected to the municipal sewage drainage network, reducing the works costs.
1.3.3.3 Storm Water drainage
It is not considered in the assumptions of the intermediate warehouse the connection of the rainwater harvesting network to the public drainage network. If it exists and is in good condittion, it is recommended to connect to the municipal rainwater drainage network.
1.3.3.4 Power supply
It is considered that the intermediate warehouse will be provided with medium voltage network at the entrance of the site, contemplating only the connection of this network to the Warehouse transformation station. Even if the local has a low-voltage power supply, it is always recommended to connect to the medium voltage grid and install the Transformer Station according to the project.
Ideally this connection will be at the front side of the complex.
1.3.3.5 Internet connections
It is not considered the existence internet connection on site, although the infrastructure is prepared for the reception of a cable or fiberoptic or any other data network cabling.
1.3.3.6 Roads Acessibilities
It was assumed that the frontal boundary of the site will be at least 5 meters from the reservation area of the public access road. This road must be paved with a width of more than 8 meters to allow the free movement of heavy vehicles that have lack of flexibility and road mobility.
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 4
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
1.4 Storage assumptions
1.4.1 Warehouse capacity
The main goal of the Intermediate Warehouses is to be able to store 300 pallets, 600 pallets or 1,200 pallets
of pharmaceutical products among other medical articles. Besides this capacity, the 300 and 600 pallets
must be able to grow if the needs change during the years.
1.4.2 Pharmaceutical Supplies
It was considered a supply of pharmaceuticals to the various Intermediate Warehouses every three months
and a monthly supply to the different Health Units.
In project development, it was assumed that the provision of the Provincial and Central Health Units would
be carried out at the Regional level. In summary, the Central and Provincial Hospitals for their size, capacity,
complexity and variety of services would be supplied by the Regional Warehouses such as Maputo, Beira
and Nampula.
1.4.3 Dry Ice Manufacturing and Storage for the Laboratory
Due to the high manufacturing costs, complex processing and the need for specific personnel for the
production of this product, the Intermediate Warehouses will not include the Manufacturing and
Manufacturing Dry Ice. Strategically; it is assumed that will be carried out at a Regional level (Maputo, Beira
and Nampula).
1.4.4 Quality control and Laboratory tests
It was considered a laboratory in all Intermediate Warehouses but due to the high costs in certain laboratory
equipments and the need for specific personnel, these laboratories will initially only provide infrastructures for
the placement of MiniLabs, water tests, visual inspection and manipulated medicin.
1.4.5 Inceneration of Pharmaceutical products
Due to the high costs involved in the Incineration of Medicines, and the the need for specific personnel for
this type of tasks, the Intermediate Warehouses will not contemplate the incineration of pharmaceuticals or
any type of incineration. Strategically, it is assumed that will be carried out at a Regional level (Maputo, Beira
and Nampula).
Although this assumption, all Intermidiate Warehouses will have a area for a possible Installation of an
incinerator if justified in the future.
1.4.6 Mosquito net warehouse
In the intermediary warehouses will only include the storage of mosquito nets for the Maternal and Child
Program because it has a constant and predictable logistic. The storage will have a capacity of 100 m³ of
storage in shelves.
This storage is planned to be on two level shelves with bale stack up to 2 meters high and were considered
two annual supplies.
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 5
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
1.4.7 Insecticides warehouse
It was not considered the storage of insecticides in the project. It was considered that this storage could be
carried out in 40 feet containers in the exterior areas inseide the complex.
1.4.8 Pharmaceutical Warehouse
It was considered that the Intermidiate Warehouses will receive bulk or prepacked pharmaceuticals, drug
kits, mosquito nets and refrigerated medicines from regional warehouses on pallets or in boxes.
1.4.8.1 Pallets
It was considered that the Pharmaceuticals are transported Europaletts with the following dimensions: 1.20 x
0.80 meters and will be stored in racks with four levels. The first level of pallets will be supported 20
centimeters from the ground and each level will be 1.5 meters high between levels. The height of the racks
with pharmeceuticals will be 4.7 meters high and without pharmaceuticals will be 3.2 meters.
1.4.8.2 Distance between racks and Forklifts
It was considered that the racks will have 4.0 meters of free space between pallet racks. This distance is
necessary for forklifts of 2.5 tons of load capacity, with electric operation, to have room of maneuverability
between the shelves.
If the maximum load option is 2.0 tonnes this dimension can be significantly reduced..
Inside the warehouses the electrical equipment (forklifts and pallet stackers) will have a parking area for
battery chargers.
The boom of these load equipments will have a minimum reach of 3.2 meters height.
1.4.8.3 Racks
The pharmaceuticals will be shipped in boxes and will be organized in small volumes that will be placed on
shelves 2.0 meters high divided into 5 levels, 1.0 meters wide and 0.5 meters deep. The highest shelf is 1.6
meters height and the shelfs spacing will be approximately 40 centimeters.
Picture 1 – Pallet racks Picture 2 – Rack detail for pallets with
shelves
Picture 3 – Mezanine storage
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 6
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
1.4.9 Cold storage (PAV, Laboratory and Refrigerated Pharmaceuticals)
1.4.9.1 Dimensions
In order to a better understanding of the real cold storage needs of the Intermediate Warehouses, it was
necessary to identify the needs of each cold (positive or negative) equipment in order to be able to
standardize the cold installations nationwide. In this way, it was identified four types of cold storage
equipment:
1. Vertical Freezer (Dimensions - 1,7 x 0,8 x 0,9 meters);
2. Horizontal Freezer (Dimensions - 0.6 x 0.6 x 1.8 meters);
3. Small Freezer container (Dimensions - 3.0 x 3.0 x 2.5 meters);
4. Large Freezer container (Dimensions - 5.0 x 3.0 x 2.5 meters).
In the following table is presented the storage capacity of each equipment:
Storage Unit Vert. Freezer Hor. Freezer Small Cont. Larg. Cont. Shelve Shelve 7 14 Volume m³ 0,6 0,6 7 14 Racio 1 1 12 23
Table 2 – Cold storage capacity
The storage capacities of the containers do not include the circulation area.
1.4.9.2 PAV (Vaccines)
The cold chain system proposed for PAV (Vaccines department) consists of an evolutionary proposal such
as:
Location Storage 300 pallets 600 pallets 1.200 pallets
PAV (Vaccines)
Small Container (Pos) 1 1 2 1
Small Container (Neg) 1 1 2
Large Container (Pos) 2 0 0 1
Large Container (Neg) 0 0 0 Vert / Horiz. Freezer 2 2 4
Table 3 – Vacins cold storage capacity
In summary, PAV will have a positive cold storage capacity equivalent to 12, 24 or 36 refrigeration freezers
depending on the size of the Warehouse (300, 600 or 1,200 pallets), for example.
The storage freezers for Ice Packs evolve from two to four 600-liter freezers.
Although designed in this way, the 300 pallets warehouses must be prepared for cold chain similar to a
warehouse of 1.200 pallets.
1 A small container has a storage capacity equivalent of 12 frezzers either horizontal or vertival. 2 A large container has a storage capacity equivalent of 23 frezzers either horizontal or vertival.
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 7
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
1.4.9.3 Laboratory
The cold chain system proposed for the Labotoraty consists of an evolutionary proposal such as:
Location Storage 300 pallets 600 pallets 1.200 pallets
Laboratory
Small Container (Pos)3 1 1 2
Small Container (Neg) 1 1 1
Large Container (Pos)4 0 0 0
Large Container (Neg) 0 0 0 Vert / Horiz. Freezer 2 2 3
Table 4 – Laboratory Cold Storage Capacity
The evolution of this cold chain is similar as the PAV in the matter that the smaller warehouses can have the
cold chain similar to a 1.200 pallets warehouse.
1.4.9.4 Refrigerated Pharmaceuticals
For the Refrigerated pharmaceuticals it was defined the following cold system:
Location Storage 300 pallets 600 pallets 1.200 pallets
Refrigirated Pharmaceuticals
Small Container (Pos) 1 2 0
Large Container (Pos) 0 0 1 Vert / Horiz. Freezer 2 3 3
Table 5 – Refrigerated cold storage capacity
It is possible to see in the following pictures de above storage systems.
Picture 4 – Vertical Frezzer Picture 5 – Horizontal Frezzer Picture 6 – Small Container Picture 7 – Large Container
1.4.9.5 Variations and possible scenarios
Although in the above mentioned points it is possible to analyze cold storage capacities, it has been found that they are not linearly proportional to the storage capacity of the warehouses. There might be scenarios of having an Intermediate warehouse of 300 pallets with the maximum number of cold storage equipments as we can have the inverse, that is, a deposit of 1,200 pallets with a reduced cold storage system. For these reasons, it was considered the maximum electric loads in all projects regardless of whether they were a deposit of 300, 600 or 1,200 pallets.
3 A small container has a storage capacity equivalent of 12 frezzers either horizontal or vertival. 4 A large container has a storage capacity equivalent of 23 frezzers either horizontal or vertival.
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 8
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
1.4.10 Human Resources
The human resources for the different warehouses are foreseen as following:
Reference Office staff Warehouse Staff Total R (m²)
Zimpeto 20 30 50 600
300 pallets 6 10 16 180
600 pallets 10 14 24 300
1.200 pallets 12 18 30 360 Table 6 – Human resources per Warehouse
1.4.11 Logístics flowchart
The logistic will flow according to the following figure. In general, the reception, storage and dispatch of
medicines flow in parallel with the flow of secoundary services and staff.
Picture 8 – Logistics Flowchart
1.4.12 Warehouse flowchart
The operation of a pharmaceutical warehouse generally operates according to the following scheme:
Picture 9 – Warehouse Flowchart
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 9
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
2 PHARMACEUTICAL INTERMEDIATE WAREHOUSE It is assumed that each Pharmaceutical Warehouse will be implemented on a site 125 meters long by 90
meters wide and in an ideal topographical flat and regular terrain.
The buildings and services in the complex will all be the same size, except for the main warehouse. The
layout for the Warehouses of 300 and 600 pallet will always have a evolution possibility up to a capacity of
1,200 storage pallets.
Resuming, the facilities will have to be flexible and capable of loading and unloading large vehicles such as
trucks with 40-foot containers, 10-ton fixed Lorries and small vans like ambulances among other vehicles.
The facilities must be able to provide secoundary services such as maintenance as well as being able to
accommodate exterior people like drivers among other visitors.
Picture 10 – General Roof plan
2.1 Masterplan
The Complex will have a Central building that will be a warehouse with capacity for 300, 600 or 1,200 Pallets, surrounded by a heavy vehicle roads and support services.
For safety reasons the flammable, toxic pharmaceutical products, mosquito nets will be stored in an independent building.
Finally, and in a general way, all the Intermidiate warehouses will have support areas composed by:
• Guardhouse;
• Transformation Station and Generator Group with two generators;
• Maintenance Area;
• Support area for external collaborators (kitchen and showers for drivers);
• Water Reservoir and a water tower;
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 10
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
• Waste treatment area (excluding incineration).
Picture 11 – General Layout
2.2 Pharmaceutical Warehouse Ground Floor
The Main Building will have its functions distributed on two levels. The ground floor will have the storage functions and the first floor will have the management (offices).
The ground floor of the building will have a closed dock area capable of receiving 40 foot trucks with capacity for 35 to 50 pallets depending on the type of cargo.
Adjacent to the docks will have two areas of reception, verification and quality control of the pharmaceuticals received. These areas shall be closed and independent so that there is no diversion or exchange of goods between the two discharges areas at the same time. These reception areas will have pallet racks capable of receiving 48 pallets on 2 levels. Thus, the capacity of simultaneous reception of these deposits will be 96 pallets.
After this verification and codification of the pharmaceuticals in the reception area, they will be distributed among the following spaces:
1. PAV (Vaccination department);
2. Laboratory;
3. Refrigerated Medications;
4. Hand picking;
5. Storage area in Pallets (Racks);
6. Surgical tools and utensiles;
7. Psychotropics and Narcotics;
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 11
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
Picture 12 – 1200 pallets Warehouse Ground Floor Plan
In the flow of the expedition of pharmaceuticals to the various Health Units, there will be a dispatch area, with counters of support, area for pallets and spere boxes. After this procedure is completed, the various loads will move to an isolated shipping area with capacity for 24 pallets, distributed in two levels. Although this distribution is mostly in boxes, the shipping area will have racks with shelves so will be able to hold pallets and boxes in case of any unforeseen situation.
All areas of the ground floor of the main building is raised from the ground 0.90 meters to allow an easier way to load and unload the truck containers.
In addition to the mentioned areas above, the ground floor will have the following support areas:
1. Entrance and Reception;
2. Kitchen and canteen;
3. Showers for Men, Ladies and Disabeled persons;
4. Archives;
5. Security Control Point;
6. Quality Control Laboratory;
7. Forklifts parking and recharge area;
8. Reception and verification area.
2.3 Pharmaceutical Warehouse First Floor
In the first floor are the offices where the Intermediade Warehouses will be managed and will have the following compartments:
1. Meeting room;
2. Sanitary facilities for Men, Ladies and Disabled staff;
3. Financial Department;
4. ICT Room;
5. Server Room;
6. Office for the Director of the Intermediate Warehouse,
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 12
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
7. Office for the Deputy Director of the of the Intermediate Warehouse,
8. Open Space Office with capacity for 8 people;
Picture 13 - 1200 pallets Warehouse Fisrt Floor Plan
As an evolutionary option of the building, the storage of pharmaceuticals and other medical articles can
develop in height in areas of PAV (Vaccines), Laboratory, Refrigerated Medications and Small Volumes.
These compartments can benefit from the height of the warehouse to store articles of great volume and
reduced weight on a first floor, mezzanine with a steel structure.
2.4 Warehouse capacity
It is expected that the storage capacities will evolve as follows:
Areas Unit 300 pallets 600 pallets 1.200 pallets Reception Pallets5 96 96 96
Racks Pallets 432 648 1.248 Large Volumes Pallets 100 100 100
Handpicking Shelves6 20 20 20 Surgical tools Shelves 20 20 20
Narcotics Shelves 48 48 48 Expedition Pallets 28 28 28
Inflamable prod. Shelves 28 28 28 Toxic prod. Shelves 96 96 96
Table 7 – Warehouses effective capacity
Resuming, the storage capacity of the Warehouses will be between 432, 648 and 1,248 pallets in total,
distributed in pallet racks with 4 levels.
The PAV, Laboratory and Refrigerated Medicines areas include storage areas for isothermal boxes, ice
packs and needles incinerators.
5 Europallets – Dimensions: 1,2 x 0,8 x 1,2 meters (Lenght x Depth x Height)
6 Shelves – Dimensions: 1,0 x 0,5 x 2,0 meters (Lenght x Depth x Height) with five levels.
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 13
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
2.5 Construction options and solutions
In this chapter is proposed materials and constructive solutions with the following objectives:
1. Reduction of eletrical and water consumptions;
2. Reduce the need for building maintenance;
3. Practicability on site (existing solutions in the market and ease of execution in any part of the
country);
4. Low maintenance in case of damage or malfunction;
5. Resistance and durability of materials.
Considering the above points are suggested the following solutions:
Materials or Construction Solution Objective
Use of double walls without exterior Reduction of heat and energy consumption
Use of thermal insulation on the 40 mm cover and false ceiling with 25 mm
Reduction of heat and energy consumption
Use of Steel structure in IPE 40 Casteled Profiles for a span of 40 meters
Simple construction process
Use of natural lighting with lighting tubes on the storage areas
Reduction of heat and energy consumption
Use of rainwater in sanitary systems and external usage (collection in galvanized gutters, piping buried in PVC and a water reservoir in reinforced concrete)
Water consumption reduction
Use of trowel concrete with a surface hardener on the storage interior floors
Simple and easy construction process and excellent finish quality
Modular shelving solutions (Single bay racks, Handpicking shelves and Mezzanine)
Maximize space, reduce damaged products, simplify and turn the product counting more efective
Space between racks with margin for a normal 2.5 ton diesel Forklift
Space Flexibility in relation to the type of loading / unloading equipment
Cold storage chain with independent and modular refrigeration equipments
Easy acquisition process and low maintenance equipements
Power supply for a warehouse with 1,200 pallets (2 generators of 100 kva and 1 PT of 160 kva):
• Generator: Imoinsa / Caterpilar • Transformation Station: EFACEC
Less future intervention in case of a evolution for a bigger warehouse;
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 14
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
Materials or Construction Solution Objective
Exterior windows made of average quality aluminum for office openings (HBS for example)
Solutions with commercial slidding profiles with reduced maintenance needs
Stainless steel sanitary fittings and fittings (FRANKE)
Materials reliability and durability
Use of expanded metal mesh in the warehouse compartments (Warehouse reception, expediction and handpicking)
Safety and access control
Aluminum-based metal cover solution (Safintra Safelock 700 with aluminum finish)
Reduction of heat and energy consumption
Cemment and gypsum plastered Simple and easy construction process and excellent finish quality
Walls and floors tiles for the sanitary installations, kitchen and laboratory (Dimensions of wall tiles - 40 x 30 cm / Floor tiles dimensions – Nonslipery 20x20 cm)
Simple and easy construction process and excellent finish quality
Solid wood interior doors with Union Ironmongary and accessories
Materials reliability and durability
Painting scheme of medium high quality (CIN paintings)
Materials reliability and durability
Stainless steel inner walls protections with 1.2 meter high (masonry and plaster corners)
Material durability
Electrical installations: • Outlets, appliques and lighting: Climar, Beka
Schreder, Radiant and Chatron Solar Light Tube;
• Switchboards: Legrand
Materials reliability and durability
Passive ventilation systems from Curvent Materials reliability and durability
Air conditioning system in offices with independent Split units per compartment
Easy acquisition process and low maintenance equipements
Application of 80mm Concrete paving blocks Cost control and simple maintenance
Use of manual industrial doors and dock levelers, resistant and with local representation in case of maintenance (Assa Abloy)
Materials reliability and durability
Safe door and solid cement masonry block walls for psychotropic and 3/4 level security door for surgical tools storage area
Safety and access control
Floor finishes in common areas (offices, reception and support areas) with 60 x 60 cm floor tiles PEI 5 (high abrasion level)
Simple and easy construction process and excellent finish quality
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 15
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
Materials or Construction Solution Objective
Hidraulic instalations: • Faucets, taps and valves from Cobra • PVC, PPR and Galvanized steel piping; • Water pumps from Grundfos
Materials reliability and durability
Fire fighting: • Exterior with reinforced fire hydrants, hose
reels and galvanized steel piping • Interior with ABC and CO2 Powder fire
extinguishers;
Fire prevention, fire fighting and risk control
Galvanized iron railings for truck parking Turn the heavy equipments maneuver process to load / unload
Access Control with Turn Turn Triumph Safety and access control
Table 8 – Warehouses constructive soluctions
Attached are catalogs, brochures, technical characteristics of the materials and solutions mentioned above
among other additional information as well as the finishing schedules where the solutions must be applied.
3 RESPONSIBILITIES AND OBLIGATIONS With this document the Client has sufficient elements to persue, analyze and decide the location of the
diferent Intermediary Warehouses with greater precision, however, it might be necessary adaptations to the
locations specially the foundations, roads, electrical and piping networks.
It is up to the Client to identify the different sites with potential to build the various Intermediate Warehouses
and ensure that the sites have the infrastructures and conditions mentioned in this document.
After the exact location of the pharmaceutical warehouses are identified, the consultant or contractor must
review the project in order to adapt all the aforementioned assumptions to the different situations and
particularities of each site without jeopardizing the internal functioning of each building, guaranteeing the
correct operation of each service.
The consultant or contractor must review and pay particular attention to the following elements:
1. Site dimensions;
2. Site slopes and the topographic caracteristics;
3. Soil and test inspections;
4. Energy and water sources;
5. Distance from main roads.
If it is detected a large variation between these assumptions and the identified site, the consultant or
contractor must reported immediately that there may be significant deviations in the contract and / or
consultancy services.
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 16
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
If there are significant changes in the implementation of the project, the consultant / contractor must present
and discuss the general layout with the Client, showing the proposed layout of the buildings and respective
people and goods flow within the intended area.
The options taken that can be seen in the different projects presented in this document project (architecture
and the other expertises), foresee pessimistic scenarios. In this way, it is expected that in each implantantion
will always be less costly and a simpler solution. Those solutions must must be presented, evaluated and
discussed in advance with the Client.
It is the consultant / contractor responsibility to carry out geotechnical and soil tests and produce the report to
justify the foundation options for each intermediate warehouse. Based on this report, the entire foundations
and roads soils sub layers must be reassessed. It is expected that the options made after this soil test will be
a cheaper solution and will bring a cost reduction of construction phase.
It is the Client responsibility that after the construction phase is prepared a maintenance management team
in order to ensure the proper functioning of:
1. Generators (Ensure proper operation and maintenance plans);
2. Load Platforms (Ensure proper operation and maintenance plans);
3. Cold systems (ensure proper operation and maintenance plans);
4. Air-conditioned cold systems (Ensure proper operation and maintenance plans);
5. Waste treatment (Ensure proper collection and separation of waste);
6. Hydraulic infrastructures (cleaning of grease separators, cleaning of ditches and rain gutters);
7. Electrical instructures (Regular check of correct operation of electrical installations)
8. Fire-fighting infrastructure (Ensure operation on a regular basis).
Maputo, November 24th 2017
_____________________
(Luis Brissos, Architect)
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 17
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
4 ATTACHEMENTS
4.1 Attachement 1 – Finishing Schedule
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 18
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 19
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
4.2 Attachement 2 – Brochures
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 20
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
Arquitecture Project Description, rev01, 24/11/2017 KA1323-PE-ARC-PJD-001-EN Page 21
MISAU- Ministério da Saúde
CMAM – Central de Medicamentos e Artigos Médicos
PSM – Procurement and Supply Management Project
Prototype Design for a Pharmaceutical Intermediate Warehouse
4.3 Attachment 3 – Paint Scheme