Concrete

Supply Chain: Key Influencing Factor in 2022

Published

4 years ago

December 21, 2021

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An analysis of the supply chain dynamics of 2021 in global shipping and its impact on logistics, gives a view on how prices are likely to unfold in the upcoming year.

As the year 2021 is coming to its close (at the time of writing there is still a month to go), the S&P 500 or the Dow Jones Index is slated for a YTD projected growth close of 14 per cent, which never could have been estimated at the beginning of the year, given the mix of dampeners, starting from the progress of the Delta variant, followed by the supply chain disruptions taking the commodities and goods in circulation to the stratosphere in terms of prices. The balancing forces of vaccine dosage in the majority of the developed world, including major economies such as China, India and the major part of the developing world outside of Africa, did a commendable job of vaccine administration that dampened the progress of the virus and thus the economic impact could be tempered.

The joker in the pack however is the impact of the supply chain disruptions that continued throughout 2021 and the tip of the iceberg seems to be the global shipping puzzle that has taken the Shanghai Containerized Freight Index to the hilt (almost three times the value at the beginning of pandemic) together with Baltic Dry Index as well. The challenge is that both these seem to be staying at high levels despite a bunch of the other indices tapering off.

Running a tight ship

The global shipping puzzle needs to be deciphered, if one has to understand the future trajectory of commodity prices, which could well influence the movement of prices of intermediate goods and final goods, well into 2022.

It all started with a sharp drop in trade and global flows from systemic demand and supply shocks have several levels of supply chain disruptions to be understood.

The first line is the disruption from commodity to semi-finished goods and finished goods through assembly and manufacturing processes and from there through the distribution network to the end markets that stemmed from simple storage. Here, there are typically three dislocation points that are supposed to act as buffers, commodity storage, warehousing of finished goods and finally the storage points at the distribution centers. All the three buffers move through the push-pull global systems and keep on adjusting to the new information, flow of physical goods, absence of flow, flow of capital and labour as well.

The second line of flow is the transportation leg itself. Here the starting point is bulk shipping, moving to unit shipping and finally to flows into urban centers of consumption (last mile). The bulk shipping size change in parcels creates havoc to this flow to the final consumption point through cascades that impact storage and distribution principles in the first line.

Demand-supply correlative

The last line is also to see the supply shock, demand shock and distribution constraints fully blown up into the disruption ambit through some discernible patterns coming from the pandemic itself:

Supply shock: Lack of raw material at the right time, lack of parts at the right time and lack of manpower at the right time
Demand shock: Rise of hoarding, drop in demand and proliferation of substitution
Distribution constraints: Trade regulations, lack of workforce, closing and opening of facilities, varying speed of execution

The first fallout of these three is the rise of the bullwhip effect across the length and breadth of the chain.

The retailers continued to tune their order patterns to every discernible signal, the supply side response kept on changing in varying degrees based on changing capabilities to serve. All sides had varying degrees of access to financing; the might of financing by large retailers pulled in is proportionate volumes to their advantage, raising empties at various dislocation points.

Size matters

All this time the shipping lines and the port handling facilities acted fast to respond to the shock. The experience of the 2008 crisis had helped to decipher the puzzle – consolidation of shipping line capacity, together with the Port handling capacity, was crucial for survival.

Even if you think of those top ports that carry more than 10 million TEUs, the ship size increase has been of the order of 25 per cent. This massification of ships is at the root of the shipping mismatch problem.

A large ship that carries more containers has many advantages, mostly related to costs, but it comes with accompanying challenges of asynchronism, as parcels have to aggregated and dis-aggregated on both sides, the port handling facility has to be augmented, land parcel logistics has to be tied, many intermediaries have to be integrated together with the informational aspects; not all of this can adjust to a much larger batch size of container-shipment. If flows increase to large bulk terminals with only bulk ships and no feeder traffic, the hub and spoke model could intensify in certain directions influencing global flows as well.

However, more interestingly the Covid-19 disruption has shown some very interesting facts how the carrier consolidation, together with Port Handling Assets consolidation created a giant consortium that facilitated larger parcel volume, pushing the logistics disruption to a singular direction of un-ending asynchronism.

Advantage technology

Any dislocation in global trade, stemming from a recession in the past, has seen a somewhat much lower level of coordination among the carrier and port handling asset space. Take the 2007-08 global crisis and not even 15 per cent of the total container shipping space was controlled by the top 10 carriers. The Port Terminal handling consolidation is also not to be lost sight of; 41 per cent was held by the top 10, to 74 per cent now.

The crisis created a bloodshed of sorts as smaller carriers-terminal handling operators could not cope up with the challenges and either declared bankruptcy or were forced into consolidation space through acquisitions. The culmination of this is seen in the late 2020 picture of shipping carrier space, together with Port Terminal Handling assets, when 90 per cent of container volume is consolidated in the strongholds of the top 10 carriers. But consolidation alone is not the only point, the real breakthrough came from technology absorption that allowed sharing of containers among the carriers to fill up larger ships.

Larger ships have the unique advantage of not only higher fixed cost absorption, it also saves on fuel as the speed reduction gives further gains. Think of a single container picked up from mainland China and is moved to the port of Shanghai and is moved through a 22,000 container vessel to Los Angeles, the logistics cost of this movement will be 40 per cent lower just from the massification and speed advantage. If carriers consolidate, together with port handling asset consolidation, the pass through of these costs to the price that retailers have to pay cannot be arrested.

Much of what is blamed on supply chain disruption is actually a combined effect of this phenomenon driven by consolidation at a massive scale, together with massification of container and shipping parcel per ship.

The year 2022 will continue to see these influences impacting prices as logistics cost will stay high in the foreseeable future.

Procyon Mukherjee

Concrete

30-Day Traffic Diversion In Place For CC Road Works In Madhapur

Diversions in place from May 16 for cement concrete road works

Published

2 days ago

May 22, 2026

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The Cyberabad Traffic Police issued a traffic advisory as road works begin for the laying of a cement concrete (CC) road from Jaya Shankar Statue to RRR Restaurant at Parvathnagar in Madhapur limits. The advisory indicated that traffic diversions will be in place for 30 days from May 16 to ensure the smooth flow of vehicles and to minimise congestion on the affected stretch. The measure aims to balance uninterrupted construction activity with the movement needs of commuters.

Traffic moving from Toddy Compound towards Parvathnagar village will be diverted at Parvathnagar junction towards Sunnam Cheruvu and the 100 feet road. Local motorists and public transport operators have been advised to follow the diversionary route as directed by traffic personnel on duty. Alternate routes and signage have been planned to mitigate delays and to manage peak hour congestion.

Police officials said the diversion had been planned to facilitate uninterrupted road works while maintaining traffic movement in the area. Commuters were urged to plan their travel accordingly and to cooperate with traffic staff managing the stretch. Authorities indicated that enforcement of diversions would be active and that violations could attract penalties.

The 30 day schedule is intended to allow contractors to complete the laying and curing phases with minimal interruption to vehicular flow. Residents and businesses in adjacent localities have been advised to factor the diversion into deliveries and travel plans. The traffic police promised continuous monitoring of the works and the operational diversions and emphasised that temporary inconvenience was necessary for longer term improvement of the road network. Traffic personnel will be stationed at key junctions and additional signage and temporary markings will be displayed to guide motorists and pedestrians through the revised alignments while public transport services will follow the diversion where feasible and operators have been asked to adjust timetables to minimise disruption.

Concrete

HeidelbergCement India Receives Consent For Khandwa Grinding Unit

Consent granted by Madhya Pradesh Pollution Control Board

Published

3 days ago

May 21, 2026

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HeidelbergCement India (HeidelbergCement India) has received regulatory consent to establish a cement blending and grinding unit at Village Dongaliya, Tehsil Punasa, District Khandwa in Madhya Pradesh. The consent was granted by the Madhya Pradesh Pollution Control Board under the Water (Prevention & Control of Pollution) Act, 1974 and the Air (Prevention & Control of Pollution) Act, 1981 and is dated 17 May 2026. The company disclosed the development in a filing made under Regulation 30 of the SEBI (Listing Obligations and Disclosure Requirements) Regulations, 2015.

The project plan envisages procurement of long term availability of fly ash and the allotment of land on lease for setting up the unit. The proposed facility is described as a blending and grinding installation which will process cementitious materials sourced from nearby operations and suppliers. Company filings state the measures required to secure raw material logistics and statutory compliance before commencing construction.

The addition of a grinding unit in Khandwa is intended to strengthen regional supply and improve logistical efficiency by reducing haulage distances for finished product. The unit is expected to complement existing capacities in central India and to offer flexibility in product mix through blending operations. The reliance on fly ash as a supplementary cementitious material will necessitate long term supply agreements with thermal power producers and coordination with waste utilisation policies.

The disclosure to the regulator and to the stock exchanges follows standard corporate governance practice and aims to keep investors apprised of capital expenditure initiatives. The company indicated that subsequent permits and clearances would be sought in accordance with applicable environmental and land use rules. The project is presented as part of HeidelbergCement India’s broader strategy to optimise capacity distribution and to respond to regional demand dynamics.

Concrete

PROMECON introduces infrared-based tertiary air measurement system for cement kilns

Published

4 days ago

May 20, 2026

admin

The new solution promisescontinuous, real-time tertiary air flow measurement in cement plant operations.

PROMECON GmbH has launched the McON IR Compact, an infrared-based measuring system designed to deliver continuous, real-time tertiary air flow measurement in cement plant operations. The system addresses the longstanding process control challenge of accurate tertiary air monitoring under extreme kiln conditions. It uses patented infrared time-of-flight measurement technology that operates without calibration or maintenance intervention.

Precise tertiary air measurement is a critical requirement for stable rotary kiln operation. The McON IR Compact is engineered to function reliably at temperatures up to 1,200°C and in the presence of abrasive clinker dust. Its vector-based digital measurement architecture ensures that readings remain unaffected by swirl, dust deposits or drift. Due to these conditions conventional measurement systems in pyroprocess environments are often compromised.

The system is fully non-intrusive and requires no K-factors, recalibration or periodic readjustment, enabling years of uninterrupted operation. This design directly supports plant availability and reduces the maintenance overhead typically associated with process instrumentation in high-temperature zones.

PROMECON has deployed the McON IR Compact at multiple cement facilities, including Warta Cement in Poland. Plant operators report that the system has aided in identifying blockages, optimising purging cycles for gas burners, and supplying accurate flow data for AI-based process optimisation programmes. The practical outcomes include more stable kiln operation, improved process control, and earlier detection of process disturbances.

On the energy side, real-time tertiary air data enables reduction in induced draft fan load and helps flatten process oscillations across the pyroprocess. This translates to lower fuel and energy consumption, fewer unplanned shutdowns, and a measurable reduction in NOx peaks. This directly reflects on the downstream cost implications for plants operating SCR or SNCR systems for emissions compliance.