The energy saving in the pharmaceutical industry: a case study at

Sanofi Midy Research Center

International Congress ISPE/PDA

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International Congress ISPE/PDA Pharmintech 2010, Bologna

Marcello Pasquazzo Local project manager new Research Center

Luca Arrighi , Head of HVAC dept., Foster Wheeler Italiana, Pharmaceutical division

Workers’ safety

Safety for people around the plants

Safety for the environment

Workers’ safety

Short response timing for a continuous containment by an integrated system

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Safety for people around the plants

Every in air emissions are filtered

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Only dry cooler to prevent Legionella

Safety for the environment

Corporate 2005 – 2008 objectives

Reduce CO 2 direct emissions by 12%

Maintain constant CO 2 indirect emissions

Reduce CO 2 emissions from

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Reduce CO 2 emissions from Med. Reps cars by 7.5%

Reduce VOC emissions by 15%

Increase solvent recycling from 57% to 63%

Each site has a biodiversity objective

The new Research Center: the task

About 10000 m 2

Full capacity 120 people

10 total floors

Relocation from the old MIDY “via Piranesi” site buil t on ’40 years of the last century to a modern Research Center

designed according to the SA guide lines

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10 total floors

Two Technical floors

~2 MW redundant electrical power supply

~250.000 m3/h supply airflow rate

Once Through HVAC systems

In the labs 20 supply air changes per hours

The new research Center: Today

Moving people in March 2008

Underground floor for parking

ground floor for common services

The Research site is dedicated to SA Drug Discovery :Exploratory Unit

68 total Headcount ( Jan 2009)

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ground floor for common services

1 floor for Administration and Direction

2 and 3 floors Pharmacology units

4 and 5 floors Chemistry units

6 and 7 floors technical floors

The Energy study: The Process

Observe: To understand the research operations needs , to assess the technical infrastructure

Evaluate: To study the solutionsPlan: To plan the facility upgrade

The process adopted is composed by three phases :

Who is involved:

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Who is involved:

Building servicesengineer

Maintenance engineer

The management

BMS supervisor

Equipment and plants suppliers

The user

• Collect the technical documents describing the faci lity• During the review of the documentation it is possib le to identify

the facility weak points

The Energy study: The Data Collection

Collection of the documentation of the installation

Collection of the facility operating trend

• Collect the energy

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• Collect the energy bills and the year trend

• Clarify the utilities provider and the contract principle

Flat profile

• Set the BMS to store the data for a representative long time

The BMS was configured to provide the supply airflow rate

The research center “population”

The Energy study: The Data Collection (cont.)

• Set the BMS to provide trends representative the se veral operating conditions setted (day-night-vacation-week end-shut down)

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provide the supply airflow rate room by room (safety for the

operator was the first goal of this facility).

It was organised the upgrade of the output in order to have the trends of the total air treated air

more suitable for this study

The research center “population” was growing up then was

necessary to identify the most representative month in terms of

labs use

2009 201020082007

The Energy study: The Data Collection (cont.)

The Site Survey• To verify the consistency

of the documentation• To identify the major

problems• To identify areas more

easily upgradeable

• The pump room was hot• Several humidification steam

generators were in maintenance

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The Operating procedure• To share with the user of the

laboratory the usual and the special operations done.

• To facilitate a share of information between the user and the maintenance staff

• The refrigerators installed inside one area requires a control of the max room air temperature. The HVAC is not allowed to stop at night

• The “Night Lab.” is in use 24h/day

The Energy study: The Data Collection (cont.)

The Maintenance procedure• To understand on which basis the maintenance is org anised • To collect important data on the plant failures and performances

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The filters replacement was organised on time basis

The heating coils of many air handling units was sized without consideration of the free pre-heating provided by the heat recovery system

At the 4 th and 5 th floor the night and week end

The Energy study: The Data Collection (cont.)

Other initiatives• To integrate he study with the other projects in pr ogress• To address the energy saving study in the respect o f the future

arrangement of the facility

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the night and week end needs (quantity of hoods in use, heat release by equipment, façade heat transfer) were studied and was defined that a complete shut down of the HVAC was acceptable

The HVAC system was not the only

user primary fluids/energy

The HVAC supply airflow rate was

available as room by room

The Energy study: The study of the solutions

The interpretation of the data

The research centerpopulation was still

growing

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The HVAC system consumption during the year was verified

by a simulation of the typical weather year with a software

The total supply airflow rate was

defined not only by a sum but also

comparing the AHU running parameters

The HVAC running conditions to use in

the study was corrected according

to the long term population forecast

• The energy savings solutions shall not compromise t he leading tasks of the facility

The Energy study: The study of the solutions

Comparison of the energy savings against the other “tasks” constrains of the facility

• The integration of the implementations shall not ad versely affect the facility operations

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The reduction of the supply airflow rates shall never go

below the minimum flow required by the containment of the hoods, an approach

room by room

The humidification section shall have high hygienic

standards

K.O. factors

The Energy study: The study of the solutions

Comparison of the energy savings against the other “tasks” constrains of the facility

• To try to give a value to the pro and cons

Identification of the solutions - Comparison of the energy

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The energy saving solution provided that is prepared by a careful assessment of the operating

conditions can be adopted without risksThe methodology is suggested on ISPE magazine Vol. 27 2007 “Energy savings in Pharma facility” by D. Goswami and ;M. Butler

Identification of the solutions - Comparison of the energy savings against the other “tasks”constrains of the facility (cont.)

• The ROI evaluation is required for the correct asse ssment of the solutions but is not enough….

• In many cases the budget for the most expensive mod ifications can be assigned only as part of a long term investm ent plan. A “site budget friendly approach” is the possible way to follow

Short, medium, long term implementation

The Energy study: The solutions & the planning

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Optimisation of the running parameters

Modification of the “localised” tips

Upgrade of big item

year 1 year 2 year 3

The Energy study: The solutions & the planning

Optimisation of the control logic of the heat recovery

system

Short term implementation: optimisation of the running parameters

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Organise the filters

change on ∆p bases

Re set of the consumption for air humidificationwhen the facility Std. conditions

The Energy study: The solutions & the planning

Short term implementation: optimisation of the runn ing parameters

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when the facility is not in use from

50% r.h. to

40% r.h.

- 7 % humidification consumption (year)

With night / we reset

The Energy study: The solutions & the planning

Medium term implementation: Modification of the “lo calised” tips

• Modification of the heat recovery circuit from flue gas to use the economizer only when the relevant boiler is in operation

• Modification of the heat recovery circuit from chillers to use the

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• Thermal insulation on the hot water circulation pumps and valves.

circuit from chillers to use the economizer only when the relevant chiller is ON

The Energy study: The solutions & the planning

Long term implementation: New centralised generatio n of steam for humidification

• - 38% on CO2 generation

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• - 48% energy cost

• ROI < 5years

The Energy study: The solutions & the planning

Long term implementation: Reduction of the operating temperatures and modification of the hot water gene ration system

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• - 10% on CO2 generation

• - 10% energy cost

• ROI < 4 years

The Energy study: The results

Expected CO2 reduction (%)

(without considering the additional positive results of the

%

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• Energy saving in pharmaceutical facilities is possi ble• The facility budget will better handle the impact o f the future

Carbon Tax

results of the optimisation of the supply airflow-rate studies)

Thanks for your attention !

Aknowledgements

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Antonio Cefalà - Direttore del Centro Ricerche

Ermanno Riva - Responsabile Servizi Tecnici

Marco Landi - Responsabile Servizi Generali

Contacts

Marcello Pasquazzo: marcello.pasquazzo@sanofi-aventis.com

Luca Arrighi: luca_arrighi@fwceu.com